EP1284162A1 - Process and apparatus for cleaning a paint supply device in a painting installation - Google Patents

Abstract

The equipment may have two containers (2,9) for lacquer paints of different colors. They have supply and return lines (5,6) and (10,11) connected to a paint supply changeover system (8). The output line (1) passes to the spray nozzle (4) via a control system (17). The purging system (23) has supplies of nitrogen (28) and purging fluid (29) connected to pressure regulators (34,38) and pressure sensors (35,39) and further control valves (36-40). Fluid flows through a purge line (24) to the nozzle.

Description

The invention relates to a method according to the preamble of claim 1 and a Device according to the preamble of claim 8.

Methods and devices of this type are used in particular in connection with painting devices in the form of robotic painting machines, which e.g. in the automotive industry can be used for painting body parts in a variety of ways. Because of the Customer behavior, today's production requirements (e.g. just in time) and the Such a painting device must have an ever greater variety of colors, particularly in the passenger car sector often on different colored paints or on paints with changing. characteristics be converted, e.g. up to 80 paint changes per day are quite common. Modern painting facilities are therefore not only with powerful color changing and Dosing systems that allow a selection from up to 30 different paints, but also equipped with rinsing and cleaning units, by means of which they are ensured is that after a paint change no unwanted residues of the previously used Paint gets onto the respective workpiece surface.

See known methods and devices of the genera described in the introduction between two work phases carried out with different paints one each Cleaning phase before. This consists essentially in the fact that a conveyor line that the Paint from a selected storage container to a paint or paint changing unit an application device (e.g. atomizer unit or the like) transported with one of them flowing, usually liquid detergent is processed. It will Detergent using compressed air either in the same direction as the paint flows (DE 20 43 789 C3), or in the opposite direction to the paint flow (DE 91 10 650 U1) pressed through the delivery line. In both cases, the detergent be removed from the delivery line before the next work phase begins. The cleaning effect can be enhanced by adding a ball or other body generally referred to as "pig" is moved back and forth in the delivery line (EP 0 888 825 A2).

A problem which arises with such methods and devices for cleaning the delivery lines is that many of the liquid lacquers used today and in particular their hardeners are extremely sensitive to oxygen. Even the smallest paint residues react in the air to form solid lumps or chunks, which are small but become visible on a smooth, painted surface and make the workpiece in question almost unusable. In order to ensure that such lumps, the formation of which is inevitable because of the compressed air used in the cleaning step, are safely removed from the delivery line before the new paint reaches the application unit, on the one hand the use of comparatively large amounts of cleaning agent is necessary. On the other hand, air or oxygen-free cleaning agent must be left in the delivery line during the entire break between two work phases carried out with different paints, in order to avoid the formation of the smallest harmful air bubbles and thus paint lumps during this time.
As a result, at the beginning of a new work phase or at the beginning of a new painting step, not only the cleaning agent itself, but also a certain minimum amount of the flowing paint must be expelled through the application device and transferred to a collecting container before the actual one starts Painting work can be started in order to ensure that no residual amounts of the cleaning agents, which usually contain a solvent, get onto the workpiece surface to be painted.

The amounts of paint and paint lost in this way during each cleaning phase Cleaning agents are considerable and represent a significant cost factor in addition, the paint and detergent must be disposed of as special waste, what the costs continue to increase and the environment is polluted. All of this applies regardless of whether the Cleaning process with the help of a so-called pig is supported or not.

Against this background, the invention is based on the technical problem that To develop the method and the device of the type specified in the introduction such that Lower amounts of paint and cleaning agents to be disposed of during the cleaning steps arise and the risk of lump formation from paint residues largely is avoided.

The characteristic features of claims 1 serve to solve this problem and 8.

The invention has the essential advantage that because of the application of a Inert gas instead of compressed air is no longer a risk that liquid paint residues be converted into solid clumps during the cleaning phases. This allows the cleaning phases are made simpler overall and with smaller quantities Detergents are carried out. Finally, a Significant reduction in the quantities of paint and cleaning agents to be disposed of achieved and thereby contribute to reducing environmental pollution.

Further advantageous features of the invention emerge from the subclaims.

The invention is explained in more detail below using an exemplary embodiment which is shown in the accompanying drawing in the form of a schematic flow diagram.

The attached drawing first shows a conventional change of color or varnish Dosing device e.g. A painting device suitable for painting body parts. A feed line 1 for paint is used at a first end 1a for connection to a paint reservoir 2 and is at a second end 1b with an applicator 3 connected in terms of flow. The application device 3 contains an order element 4, that e.g. from a spray gun, an atomizer or another, known per se Element for spraying, spraying or other application of lacquer in one jet 5 can exist. All other parts of the application device 3 which are not important to the invention have been omitted for simplicity.

The storage container 2 is preferably by means of a ring line which a flow 6 and has a return line 7, to a color or lacquer changing unit 8 known per se connected. This is preferably at least one in addition to the reservoir 2 further storage container 9 connected, for which purpose another, also one Flow 10 and a return 11 ring line is provided. In both Ring lines each have a controllable valve 12 or 14 connected to the corresponding one Flow 6, 10 either with the associated return 7, 11 or at one connection point each 15, 16 connects to the first end 1 a of the delivery line 1. Is the lead 6, 10 connected to the associated return 7, 11, circulates in the storage container in question 2, 9 liquid paint with a preselected pressure (e.g. approx. 4 bar) in the relevant loop. By contrast, the valve 12, 14 connects the flow 6, 10 with the associated connection point 15 or 16, then paint from the relevant Reservoir 2, 9 pressed into the delivery line 1 and in this in the direction of Transport device 3 transported.

The storage containers 2 and 9 are e.g. as a pressure vessel or as a membrane or Piston pumps provided containers, from which, as is the case with painting equipment of the type described is usual, the paint is pumped into the ring line 6, 7 or 10, 11 becomes. In the following, the storage containers 2, 9 are therefore generally referred to as "paint supplies" designated.

For precise dosing of the paint, e.g. a dosing unit 17. This contains in Embodiment a paint pressure regulator 18 and e.g. as a motorized Gear pump designed metering pump 19, both in a row in the delivery line 1 are switched. The pressure upstream of the metering pump 19 can be by means of a pressure sensor 20 are measured, while measuring the pressure with which the paint Applicator 3 is fed, another, downstream of the metering pump 19 arranged pressure sensor 21 is used. Depending on which of the two valves 12, 14 to the delivery line 1 is open, paint from the reservoir 2, 9 is thus Applicator 3 supplied. In addition, one running parallel to the metering pump 19 Beipaßleitung 22 in the delivery line 1 to be switched when using certain Types of paint through part of the paint instead of through the slow-running metering pump 19 to let the bypass line 22 run.

Devices of the type described are generally known to the person skilled in the art and need not explained in more detail. To avoid repetitions, therefore publications mentioned at the beginning (DE 91 10 650 U1, DE 20 43 789 C3, EP 0 888 825 A2) by reference to them the subject of the disclosure of the present invention made.

According to the invention, the device described has one with an inert gas, preferably Nitrogen-operated flushing unit 23 for cleaning the delivery line 1. The Rinsing unit 23 is by means of a line 24 either directly or via a line, not shown Valve of applicator 3 connected to second end 1b of delivery line 1 in such a way that in one position of this valve through the feed line 1 supplied paint flows out in the form of the jet 5 from the applicator 3, while in another Position of the valve, the line 24 is connected in terms of flow to the delivery line 1 is. Normally, however, the application element 4 has one free on the lines 1, 24 connected passage to which a spray nozzle or the like is connected. If there is no painting, this is closed with a needle that is used for a painting process is pulled out of the nozzle to release the jet 5.

The purging unit 23 has an inert gas source 28 and a cleaning liquid source 29. The inert gas source 28 consists, for example, of a conventional nitrogen bottle, from which, when a valve is opened, gaseous nitrogen is pressed into a line 30 which is connected to the line 24 via a connection 31. In contrast, the cleaning liquid source 29 consists, for example, of a storage container from which a cleaning liquid can be pressed under pressure into a line 32 which is connected to the line 24 via a connection 33. In the line 30 in the direction of flow of the inert gas (arrow v ), a pressure regulator 34, a pressure sensor 35, a controllable valve 36, for example a two-way valve, and a check valve 37 are connected one behind the other to prevent the backflow of unwanted media in the direction of the arrow v prevented opposite direction. The components 34 to 37 here form not only a means for connecting the inert gas source 28 to the delivery line 1, but also a means for filling the delivery line 1 with inert gas, as will be explained in more detail below. Correspondingly, a pressure regulator 38, a pressure sensor 39, a check valve 40 and a controllable valve 41 are connected in series in the direction of flow of the cleaning liquid (arrow w ), by means of which the cleaning liquid can be introduced into the line 24 at the connection 33. The check valve 40 also prevents undesirable backflows here. The components 30 to 41, as explained further below, also form a means for forming a foam mixture.

The cleaning liquid source 29, like the storage containers 2, 9, can be a pressure container or contain a container with a pump system. The desired pressure can then adjusted with the pressure regulator 38 and monitored with the pressure sensor 39.

The first end 1 a of the delivery line 1 opens according to the accompanying drawing via a controllable drain valve 42 into a collecting container 43. The arrangement is preferably such that the connection points 15 and 16, viewed from the drain valve 42, behind in the flow direction (arrow x ) this lie and are connected to the valves 12, 14 via the shortest possible line sections 44, 45. In the flow direction immediately behind the last connection point 15 there is also a sensor 46, designed in the manner of a proximity switch or the like, for example inductive or capacitive sensor 46, the function of which is explained below.

The operation of the painting device described and the invention Rinsing unit 23 is essentially as follows.

During a normal working phase, the valves 12, 14, 36, 41 and 42 are first closed. By opening one of the valves 12, 14, it is then selected which one Paint is to be released by the applicator 3 during the working phase. The Valve 22 is open or closed depending on the paint used. Assuming that Valve 12 is open, thus liquid paint flows out of the reservoir 2 in the the pressure regulator 18 and the metering pump 19 set and by means of the pressure sensors 20, 21 monitored metering to the applicator 3, so that this by automatic or manually opening and closing its outlet nozzle in the usual way can be. This mode of operation remains unchanged as long as the paint from the storage container 2 is processed.

If processing of the lacquer from the storage container 9 is to be carried out, a cleaning phase for the delivery line 1 is initially provided. For this purpose, the valve 36 of the purging unit 23 is opened when the application device 3 is closed, as a result of which the inert gas from the inert gas source 28 passes via the lines 30 and 24 and the application device 3 or directly into the second end 1b of the delivery line 1. The pressure of the inert gas readable on the sensor 35 is determined by the setting of the pressure regulator 34. The pressure of the inert gas (for example 10 bar) is chosen so that the paint standing in the delivery line 1 is pressed against the usual direction of delivery (arrow x ) back in the direction of the storage container 2 or its ring line. Because of the short line section 44, the paint can be transported back almost completely.

The sensor 46 monitors this process and emits a signal as soon as it is from the Interface between paint and inert gas is passed. This signal cannot go through a shown, preferably automatic control device can be used to Close valve 12 and open drain valve 42. As a result, the very small amount of paint still standing in front of the inert gas column now through the end 1a of the Delivery line 1 is pressed into the collecting container 43. So only one falls small amount of paint to be disposed of.

By responding to the sensor 46, the valve 41 of the flushing unit 23 can simultaneously be opened. As a result, liquid cleaning agent or solvent flows out of the Storage container 29 into the line 32, which is then in a by means of the pressure regulator 38th set quantity and controlled by means of the sensor 39 via the connection point 33 arrives in line 24. By appropriately setting the pressures and conveying speeds it is preferably ensured that the cleaning liquid and the Inert gas form a cleaning or rinsing agent in the form of a foam mixture that like the pure inert gas is first pushed in the reverse direction through the delivery line 1, until finally the front of the foam mixture column reaches the collecting container 43.

During this process, the element 4 of the application device 3 can also be briefly opened and thereby freed from paint. With appropriate pressure of the inert gas the flushing unit 23 works in the manner of a high-pressure cleaner and is therefore extremely effective and fast. In addition, the foam mixture can depend on the paint used can be set differently, so that optimal rinsing can always be achieved.

Shortly after the sensor 46 the interface between the inert gas and the foam mixture has recognized and issued a corresponding signal, the valve 41 for the Cleaning liquid closed. Alternatively, the cleaning phase can also be carried out via a preset expiry time from the start of the detergent supply or from the response of the Sensor 46 are ended. As a result, the inert gas is now again alone through the Conveyed line 1 driven and thereby the detergent still in it is pressed completely into the collecting container 43. The completion of this process is in turn indicated by the sensor 46 or by a preselected expiry time established.

A short time later, the entire delivery line 1 is filled exclusively with inert gas, whereupon valve 42 is closed and this condition is maintained until the next Work phase begins and e.g. the valve 14 opened instead of the valve 12 and the valve 36 is closed. This will ensure that the inert gas remains during the time between the end of the actual cleaning process and the beginning of the next one Working phase with such a high pressure in the delivery line 1 is that the penetration of air or oxygen through uncontrollable leaks with certainty is avoided.

According to a preferred embodiment, after the feed line 1 is filled, with inert gas up to a pressure selected by the pressure regulator 34 of e.g. 1 bar too the valve 36 is closed, whereby the delivery line 1 is closed on all sides. in the Following this, the pressure prevailing in the delivery line 1 is continuously measured using the Pressure sensors 20, 21 checked. Is a component leaking or does any medium flow from the outside in an uncontrolled manner in the delivery line 1, then this is done with the Pressure sensors 20, 21 recognized and for generating an alarm signal, a shutdown signal used for the entire facility or the same. The valve 22 is here preferably open.

After the closing of the Valve 36 and opening the valve 14 can, if necessary, the element 4 of the Application device 3 can be opened again. This pushes the newly supplied paint first the inert gas column standing in the delivery line 1 out of this. The the Sensor 46 signaling the flow of the lacquers can be used to generate a to determine the lead time resulting from the length of the delivery line 1 before using the actual painting work is started when the spraying of the inert gas on the workpiece to be painted should be avoided. However, since it is inert gas acts, it generally does no harm if the element 4 immediately after the Release of the paint directed by the valve 14 at the workpiece surface in question and thereby some inert gas on the workpiece surface to be painted arrives.

During normal operation of the painting device described, the delivery line 1 in the same way as described above in connection with the inert gas Checked for possible errors with the help of the varnish pressure in the delivery line 1 become. For this, e.g. after a preset time (e.g. 10 sec) from completion the last paint removal from the applicator 3, the valve 12, 14 concerned closed, the paint pressure at this time in the delivery line 1 as Setpoint pressure specified and this is monitored by means of the pressure sensors 20, 21. at unwanted increase or decrease in this pressure is avoided with the help of the automatic Control device in turn generates an alarm or shutdown signal or the like. Here, too, the valve 22 is preferably open. Should be painted again afterwards, the relevant valve 12, 14 is opened again and the valve 22 is closed again.

The inert gas in the inert gas source 28 becomes particularly when it is Inert gas is nitrogen, preferably at a certain minimum temperature held, e.g. is equal to or greater than 10 ° C or 20 ° C. This ensures that the paints used are not at temperatures below e.g. 5 ° C cooled where some paints can be destroyed.

In painting facilities in which more than one application device 3 is connected to the delivery line 1 is connected, it may be appropriate to apply the varnish pressure in the ring lines 6, 7 or 10, 11 larger (e.g. 15 to 20 bar). In this case, the valves 12, 14 preferably further valves or the like upstream, which during the cleaning phases reduce the pressure in the ring lines 6, 7 or 10, 11 to a value or regulate down that is sufficiently lower than the pressure of the inert gas (e.g. 10 bar) is to achieve the desired recovery of the paint during the cleaning phases guarantee. After the paint in the relevant ring line 6, 7 or 10, 11th has been pushed back, the required delivery pressure is restored.

The invention has numerous advantages. First, through the application an inert gas that does not react with the varnishes used and the final one Filling of the delivery line 1 with the inert gas ensures that in the delivery line 1 remaining paint residues are not converted into disruptive lumps or the like. this applies for the entire duration of a cleaning phase between two work phases. This can also be avoided that for safety reasons at the beginning of a work phase first a certain amount of paint emerging from the application device 3 into one Collection container must be initiated in order to apply detergent to the Avoid workpiece surface safely, i.e. using the invention, the newly emerging paint can be processed immediately and without waste. It is also advantageous that during the cleaning process, one formed from the cleaning liquid and the inert gas Cleaning foam can be used, reducing the amount of cleaning fluid needed be significantly reduced. Both measures contribute significantly Reduction of costs, since the costs for the disposal of Hazardous waste can be reduced. Since there is no longer a risk that from lumps of lacquer or the like. Form, the intensity of the to be carried out Cleaning work can be reduced. Apart from that, after a work phase can still paint standing in the delivery line 1 can be almost completely recovered.

It is also advantageous that not only the delivery line with the described method 1 itself, but also all its fittings, valves etc. (e.g. 16, 18, 19, 20, 21, 22) can be cleaned without any problems, particularly in the case of systems using pigs is not readily possible because the pigs usually no fittings or the like. can go through. Finally, all of the operations described can be done in a simple manner are controlled automatically, which is why the invention is particularly advantageous in robot painting machines can be applied.

The invention is not limited to the described embodiment that can be modified in many ways. This applies in particular to the number of different types of lacquer provided in individual cases, which can be selected with the aid of the color changing unit 8. Instead of lacquers of different colors, lacquers or lacquer types with other different properties can also be selected, for example conventional lacquers in addition to lacquers for so-called metallic coatings. It is clear here that other liquids, in particular paints, can also be transported through the conveying line 1 instead of paints and the term "paint" in the context of the present invention is intended to include all such liquids suitable for coatings. Furthermore, the different steps can be carried out during the cleaning phases in a different order and / or in a different direction and / or with different time cycles. It would be possible, for example, to remove the cleaning agent after recovery of the lacquer column remaining in the conveying line 1 in the conveying direction of the lacquer (arrow x ), for example by providing a second inert gas source arranged at the first end 1 a of the conveying line 1. Furthermore, the inert gas source 28 used is preferably not a nitrogen bottle, but rather a commercially available nitrogen generator which, for example, generates nitrogen from air at a pressure of up to 15 bar. Furthermore, the delivery line 1 can contain other useful components, for example a fine filter that only allows particles up to a size that is slightly larger than the pigment size of the paints used. Furthermore, the valves 12, 14 of the color changing unit 8 together with the drain valve 42 can be combined to form a compact block, in order thereby to further shorten the line sections 44, 45 or to omit them entirely. Furthermore, it is clear that the invention should include not only the described device for cleaning a paint delivery line 1, but also a complete painting device equipped with such a device. Finally, it goes without saying that the various features can also be used in combinations other than those shown and described.

Claims (18)

Method on a painting device for cleaning a paint delivery line (1), which leads from at least one storage container (2,9) for liquid paint to at least one application device (3) for the paint, the paint being removed from the storage container (2,9 ) conveyed to the applicator (3) and a cleaning agent is pressed through the delivery line (1) during cleaning phases in between, characterized in that an inert gas is used as gas and that the delivery line (1) is filled with the inert gas at the end of the cleaning phase and remains filled with the inert gas until the beginning of the following work phase. A method according to claim 1, characterized in that during the cleaning phases, the paint in the delivery line (1) is first pressed back into the storage container (2,9) by means of the inert gas, then a cleaning agent is passed through the delivery line (1) and then the cleaning agent is removed from the delivery line (1) by the inert gas. Method according to Claim 2, characterized in that the cleaning agent is pressed into the delivery line (1) in the direction of the storage container (2,9) and is removed from the delivery line (1) in the same direction. Method according to one of claims 1 to 3, characterized in that the inert gas located in the delivery line (1) at the beginning of a working phase by means of the lacquer supplied from the storage container (2,9) through the application device (3) out of the delivery line (1 ) is driven out. Method according to one of claims 1 to 4, characterized in that the application device (3) is opened briefly when the cleaning agent is passed through the delivery line (1). Process according to one of Claims 1 to 5, characterized in that nitrogen is used as Inert gas is used. Method according to one of claims 1 to 6, characterized in that a foam mixture formed from a cleaning liquid and the inert gas is used as the cleaning agent. Device on a painting device for cleaning a paint delivery line (1), the at least one storage container (2,9) with at least one application device (3) for the Paint connects to the paint during work phases from the storage container (2.9) to Transport device (3) comprising: a rinsing unit (23) for conveying a Detergent and / or a pressurized gas through the delivery line (1) during cleaning phases between the work phases, characterized by that the purge unit (23) contains an inert gas source (28) and means (36, 42) which for filling the delivery line (1) with the inert gas at the end of a cleaning phase and for leaving the inert gas in the delivery line (1) until the beginning of the following one Work phase are set up. Apparatus according to claim 8, characterized in that the flushing unit (3) is connected to the second end (1b) of the delivery line (1). Device according to Claim 9, characterized in that the means (35, 42) contain a first controllable valve (36) for connecting the inert gas source (28) to the delivery line (1). Apparatus according to claim 9 or 10, characterized in that the flushing unit (23) has a source of cleaning agent (29) and the first end (1a) of the delivery line (1) opens into a collecting container (43) via a second controllable valve (42). Device according to one of claims 8 to 11, characterized in that the flushing unit (23) has means (30 to 41) for forming a foam mixture from the cleaning agent and the inert gas. Device according to one of claims 9 to 12, characterized in that the storage container (2) is connected to the delivery line (1) by means of a third controllable valve (12). Device according to one of claims 8 to 13, characterized in that the delivery line (1) is connected at the first end (1a) by means of at least one fourth controllable valve (14) to at least one further storage container (9) and the third valve (12) and the fourth valve (14) is part of a paint changing unit (8) intended for the optional supply of paints of different properties, in particular colors. Device according to one of Claims 8 to 14, characterized in that a metering unit (17) for the paint which it is conveying is connected to the conveying line (1). Apparatus according to claim 15, characterized in that the metering unit (17) contains a metering pump (19) and a bypass line connected in parallel therewith and having a fifth controllable valve (22). Device according to one of claims 8 to 16, characterized in that it has a control device for the controllable valves (12, 14, 22, 36, 42) in such a way that after a working phase, first by opening the first controllable valve (36) in the Conveying line (1) is pressed back into the relevant reservoir (2.9), then the third or fourth valve (12, 14) is closed and the second valve (42) is opened, then by additionally opening a sixth controllable valve ( 41) cleaning agent is pressed through the delivery line (1), and then, after the sixth valve (41) is closed, the cleaning agent is removed from the delivery line (1) and this is then filled exclusively with the inert gas by closing the second valve (42). Apparatus according to claim 17, characterized in that the control device is set up in such a way that the first controllable valve (36) is closed at the latest when the application device (3) is opened for the further conveying of paint.

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