CH643468A5 - Method and apparatus for the spray-coating of articles with powder - Google Patents

Description

The invention relates to a method and a device for spray coating objects with powder according to the preambles of claims 1 and 2.

According to GB-PS 1485 255, it is known to have powder feed lines with pinch valves and a connection for additional gas arranged downstream thereof and a suction line leading parallel and at a distance from one another into a collecting device, from which a powder discharge line leads to a spraying device. When changing the powder, the entire powder supply is first interrupted, then the lines are flowed through by applying a vacuum with an air stream against the previous powder conveying direction, after which additional gas is driven through the lines in the direction of the previous powder conveyance. Then powder from another feed line is then fed to the spraying device.

From DE-OS 2 237 507 there is also a changing device for changing from one type of powder to another

Powder known. The ends of the feed lines are moved relative to the discharge line when changing the powder, and thus only one of the feed lines is connected to the discharge line. Furthermore, pipe switches are known from DE-OS 1 481 189 5 and DE-AS 1 245 847 for the distribution of pneumatically conveyed bulk goods.

The object of the invention is to be achieved

without time-consuming cleaning work and without powder mixing being able to switch from one type of powder to another. Powder deposits in the pipe system, wear of mechanical parts and complicated control circuits are also to be avoided.

This object is achieved according to the invention by the features in the characterizing parts of claims 1 and 2-15.

According to claim 1, a good cleaning effect is achieved by the additionally used gas, and it is avoided that remaining powder particles mixed with new powder get on the object to be coated. The new powder has an even stronger cleaning effect than the additional gas and can therefore remove any remaining powder particles of the previously conveyed powder via the suction device. In the device for carrying out the method according to claim 2, ideal flow conditions are given at the same time in such a way that powder deposits in the line system are largely avoided. It is structurally simple and expedient if the suction device is designed according to claim 3. An embodiment of the invention is described below by way of example with reference to the sacred drawing.

Two of six powder containers 1 and 2 are shown therein, all of which contain different powders. The lower end of the powder containers 1 and 2 opens into the negative pressure area 3 of an injector delivery device 5 and 6. The negative pressure area 3 arises from the fact that a delivery channel 7 with a channel narrowing 8 and a subsequent channel extension 9 after the Venturi or Dif 40 fusor principle is provided. A conveying gas 11 or 12 supplied to the inlet 10 of the conveying channel 7 sucks powder from the container 1 or 2 into the vacuum region 3. Air is usually used as the conveying gas. The gas-powder mixture passes through a feed line 13 or 14 and its pinch-45 valve 15 or 16 and a subsequent feed channel 17 or 18 into a discharge channel 20.

From there, a further squeeze valve 21 leads to a powder spray gun 22. This can have a device for electrostatically charging the powder. The supply channels 17 and 18 and the supply channels of the other powders, which cannot be seen in the drawing, are arranged in a cone shape in such a way that they are arranged meet at a certain point 23 at the upstream end of the delivery channel 20 and open into a kind of mixing chamber 24 ss of the delivery channel. As a result, only a sharp-edged or pointed web 25 remains between the channel openings 24.

An additional gas connection 31 60 and 32 opens into each feed channel 17 and 18 near its upstream end. The additional gas is preferably air.

The discharge channel 20 is connected via a connecting channel 33 which opens into it to the negative pressure region 3 of an injector conveying device 34 which acts as a suction device and which works on the same principle as ar-65 as the injector conveying device 5 and 6. Your inlet 10 Conveying gas 35 can be supplied which, as a result of the vacuum region 3 from the discharge channel 20, possibly present gas and powder via the supply

can deduct binding channel 33. The withdrawn gas-powder mixture is discharged via a discharge line 37, in which a pinch valve 38 is located, and can optionally be reprocessed for reuse. Air is normally used as the conveying gas 35.

The pinch valves 15, 16, 21 and 38 each contain an elastic channel wall 39 in a surrounding housing 40. Connections 41 serve to supply compressed gas into the intermediate space between channel wall 39 and housing 40.

The pinch valves 15 and 16 of the feed lines 13 and 14 are all connected to a distributor head 42 in which the feed channels 17 and 18, the gas connections 31 and 32 as well as the discharge channel 20 and the connecting channel 33 are located. The distributor head 42 is designed in such a way that all the supply channels 17 and 18 are located at a point 23 in such a way that no major cross-sectional changes occur.

Description of a powder change

First, for example, the powder of the container 1 is selected and conveyed to the powder spray gun 22. In this case, the pinch valves 15 and 21 are not closed, as shown, but open. On the other hand, the pinch valve 16 is closed in the manner shown in this process operation, and a small amount of additional air is supplied to the feed channel 18 via the gas connection 32, which prevents individual powder particles from migrating against the pinch valve 16. Likewise, the pinch valve 38 is closed so that powder cannot get into the discharge line 37 via the injector delivery device 34.

If the powder of the container 1 is now to be changed to the powder of the container 2, then the supply of the conveying air 11 to the injector conveying device 5 is first

3,643,468

interrupted. Then the pinch valve 15 is closed, the pinch valve 38 is opened, and feed air is also fed to the inlet 10 of the injector delivery device 34. As a result, the spray gun 22 is sucked empty by the residual powder of the container 1. The residual powder is fed through the discharge line 37 to a mixed powder container (not shown). The first cleaning phase takes about 5 to 6 seconds. After this time, the pinch valve 21 in front of the spray gun 22 is closed. The injector conveyor device 34 leading to the Ab-io remains in action and now cleans the distributor head 42 including the flanged-on supply channels 17 and 18. If necessary, the process just described can be repeated again. As practical tests have shown, a nor-i5 maier dye or powder change is possible within 6 to 10 seconds.

Now the pinch valve 16 is opened and the injector delivery device 6 is supplied with air serving as delivery gas 12. The mixture of this conveying gas and aspirated powder of the container 2 is fed through the feed line 14 to the pinch valve 16. The gas connection 32 is still acted upon by additional air used for cleaning, as is the gas connection 31. The injector delivery device 34 is still in operation and has the task 25 of still suctioning off the first incoming powder particles of the container 2. After a short time, the inlet 10 of the injector conveying device 34 is interrupted by the conveying air supply and the pinch valve 38 is closed.

30 Before the injector conveyor 6 at the inlet 10 was fed with conveying air, the pinch valve 21 for the powder supply to the spray gun 22 was opened.

Blower nozzles 43 arranged on the outer circumference of the spray gun 22 prevent individual powder particles from being deposited on their surface.

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1 sheet of drawings

Claims (3)

643 468 PATENT CLAIMS 1. A method for spray coating objects with powder, in which a plurality of powders are conveyed to a common discharge line (20) by means of conveying gas via separate feed lines (13, 14) and in which the lines when the powder is changed downstream of feed line closure points (15, 16) by additionally introduced Gas (31, 32) are cleaned and, after all supply lines (13, 14) have been closed, (33, 34) are sucked in, characterized in that a) after a certain time of suction the discharge line (20) is closed (21), but the suction (33.34) is maintained, b) after a further period of time, the discharge line (20) is opened again (21), c) powder is then fed via one of the feed lines (13, 14) to the discharge line (20) and at the same time the first incoming powder particles are sucked off by the suction (33, 34) which is still maintained, and d) after the first incoming powder particles have been sucked off, the Suction (33, 34) is ended. 2. Device for performing the method according to claim 1, with a plurality of powder feed lines (13, 14), a discharge line (20) connected to all feed lines and leading to a spray device (22), with valves (15, 16) in the feed lines (13 , 14), with additional connections (31, 32) for introducing additional gas downstream of the valves (15, 16) and with a vacuum connection (33, 34) on the discharge line (20) downstream of the additional connections (31, 32) for extracting powder when changing powder, characterized in that the end sections of the feed lines (17, 18) are (24) channels (17, 18) opening into the upstream end of the delivery line (20), adjacent mouth sections of these feed channels (17, 18) at an acute angle are arranged conically to each other, all mouths (24) are arranged directly next to each other and are separated from each other only by a pointed web (25), and that there is in the discharge line (20) downstream of the vacuum connection (33, 34) optionally lockable valve (21) is located. 3. Device according to claim 2, characterized in that the vacuum connection (33, 34) is provided with a suction device (34) according to the venturi or diffuser principle, the negative pressure region (3) of which is connected laterally via a connecting channel (33) into the delivery channel (20 ) flows out.