DE102011052298A1 - Filter system for use in paint shop for coating workpieces such as vehicle body, has processing device that is provided for processing paint overspray and filter aid material - Google Patents

Abstract

The system has filter device (114) comprising a filter element (120) to separate paint overspray and filter aid material from crude gas. A receptacle (124) receives paint overspray and filter aid material. An extraction device (128) removes portion of paint overspray and filter aid material from receptacle. A processing device (134) is provided for processing the paint overspray and filter aid material.

Description

The present invention relates to a method for operating a filter device for cleaning a wet-paint overspray-laden crude gas stream, wherein wet-paint overspray is deposited on at least one filter element for separating the wet-paint overspray from the raw-gas stream, wherein a filter aid material at least a portion of the wet-paint. Oversprays absorbs. Further, in the wet-paint overspray-loaded process, filter aid material is collected in a filter-aid receptacle.

Such a method is for example from the DE 10 2007 040 900 A1 known. In this known method, the fill level of a mixture of filter aid material and wet paint overspray is measured by means of a level sensor in the filter aid material receptacle. From the measured fill level, it is then possible to deduce the proportion of wet paint overspray on the mixture located in the filter aid material receptacle.

The present invention has for its object to provide a method of the type mentioned, in which an efficient and cost-saving, possible later replacement of filter aid material can take place.

This object is achieved according to the invention by measuring at least one physical and / or chemical property of a portion of the filter aid material collected in the filter aid material receptacle during operation of the filter device.

Such a portion is preferably removed from the receptacle (filter aid material receptacle) several times at a plurality of times spaced apart so that a corresponding measurement series results during the operation of the filter apparatus, from which a change in the measured physical and / or chemical property can be determined.

Preferably, by measuring at least one physical and / or chemical property of a portion of the filter aid contained in Filterhilfsmaterialaufnahmebehälter a quantitative ratio between wet paint overspray and filter aid material in Filterhilfsmaterialaufnahmebehälter and / or a degree of loading of the present in the Filterhilfsmaterialaufbehälter filter aid with wet paint overspray can be determined. In particular, it is possible to determine an absolute value for the quantitative ratio and / or the degree of loading of the respectively withdrawn component and / or a relative change in the quantitative ratio and / or the degree of loading of the respectively withdrawn component.

Furthermore, it can be provided that by measuring at least one physical and / or chemical property of a portion of the filter aid material collected in Filterhilfsmaterialaufnahmebehälter a proportion of liquid, especially hydrocarbon, solvent in the paint, a water content, a proportion of volatile substances (in terms of explosion protection measures) and / or proportions of hazardous substances and / or heavy metals can be determined.

In particular, using a loosening or mixing device within the Filterhilfsmaterialaufnahmebehältters for continuous or interval mixing of the filter aid can be concluded on the removed portion of the filter aid and its properties on the state of the filter aid in the entire receptacle.

The component itself is determined in particular via a predefined volume, into which the component is filled, or via a predefined mass and kept approximately constant during each measurement.

Alternatively, the portion is spatially separated from the remainder of the receptacle contents only by positioning the portion in a recess of the receptacle and / or in a pipe branching from the receptacle. In the depression or in the pipeline then results in a defined volume element, which can then be measured there (dormant). When measuring in a pipeline, moreover, it is possible to measure continuously (fluently) at a fixed volume or mass flow, whereby in each case only a portion of the volume / mass flow is measured in a certain period of time. It may then be particularly advantageous to measure filter aid material withdrawn from the filter aid material receptacle at intervals or continuously by means of a removal device.

According to the invention, a quantitative ratio can be understood as meaning, for example, an (arbitrary) mass ratio between masses of paint overspray and mass of filter aid material or an (arbitrary) volume ratio between volume of paint overspray and volume of filter aid material.

In one embodiment of the invention, it is provided that at least one, preferably intrinsic, property of the wet-paint overspray-laden filter aid material is measured to determine a degree of loading of the filter aid material and that at least part of the wet-paint Overspray loaded filter aid material is removed from the filter aid material receptacle depending on the determined degree of loading of the filter aid. In this way, a reliable determination of a degree of loading of filter aid material with wet paint overspray is possible.

The degree of loading of the filter aid is, for example, a measure of a proportion of wet paint overspray on a mixture of filter aid material and wet paint overspray. This proportion of wet paint overspray on the mixture of filter aid material and wet paint overspray may be in particular the weight fraction of wet paint overspray on the mixture.

Further, the degree of loading of the filter aid may be a measure of the ability of the filter aid to take up or bind wet paint overspray.

In particular, the degree of loading is to be understood as meaning the amount (in particular mass) of paint overspray bound per specified mass or volume unit of filter aid material.

Measurement of an intrinsic property in this specification and the appended claims is understood to mean the measurement of, in particular physical, the size of a substance, which is independent of the amount of the substance to be investigated. In particular, this is a size dependent on the physical and / or chemical nature of the substance. The intrinsic property is thus, in particular, a property inherent in the substance, that is to say a substance-immanent property.

By including wet paint overspray by filter aid material, in this specification and the appended claims is meant, in particular, a physical attachment, a chemical reaction, and / or a physical mixing. Preferably, a liquid fluid contained in the wet paint overspray, in particular a solvent, for example water or an organic solvent, is taken up by the filter aid material, so that a substantially dry mixture of filter aid material and wet paint overspray forms.

By virtue of the fact that in the method according to the invention preferably at least one, in particular intrinsic, property of the wet-paint overspray-laden filter aid is measured, it is not necessary to determine the total amount of the mixture of filter aid and wet paint overspray to determine the degree of loading of the filter aid. In particular, a determination of the total weight of the mixture of filter aid material and wet paint overspray, which increases with increasing degree of loading of the filter aid, is not necessary. Rather, the analysis of a sample of the filter aid may be sufficient to determine the degree of loading of the filter aid. The advantage of this measuring method is in particular that the measurement for determining the degree of loading of the filter aid at any time and in particular can be carried out continuously and not, as in the measurement with a level sensor, of different operating conditions of the filter device, for example, a state before or after one Cleaning process of the filter elements, depends.

Due to the fact that, in the method according to the invention, furthermore at least part of the wet-paint overspray-laden filter aid material is removed from the filter aid material receptacle as a function of the determined degree of loading of the filter aid material, a minimum quality of the filter aid material arranged in the filter aid material receptacle and used to deposit wet-paint overspray can be guaranteed , Thus, in particular if the measurement of the at least one property of the wet-paint overspray-laden filter aid material leads to the determination of an excessively high degree of loading, at least a portion of the wet-paint overspray-laden filter aid material is removed from the filter aid material tank by fresh filter aid material not loaded with wet paint overspray replaced.

In one embodiment of the invention, it is provided that the permittivity of the filter aid material loaded with wet-paint overspray is measured as a property. In particular, it can be provided that the relative permittivity is measured. The permittivity indicates the dielectric conductivity of a material. The relative permittivity reflects the dielectric conductivity of the material in relation to the permittivity of the vacuum.

By measuring the permittivity of the filter aid material loaded with wet paint overspray, it is possible to conclude on the degree of loading of the filter aid material, since the permittivity, that is to say the dielectric conductivity, of the filter aid material changes greatly with increasing degree of loading. In particular, if the wet paint overspray is water-containing, for example, filter aid material designed as rock meal will initially have a relative permittivity ε _r = approximately 2. With increasing absorption of water from the wet-paint overspray, which in itself has a relative permittivity ε _r = 80, the relative permittivity of the loaded filter aid material will then increase sharply with increasing degree of loading. A similar effect also arises with the use of other solvents, which For example, have a relative permittivity ε _r = about 9 to about 20.

The measurement of the at least one property of the wet-paint overspray-laden filter aid for determining a degree of loading of the filter aid is carried out, for example, by means of a capacitive sensor. In this way, in particular the permittivity of the wet-paint overspray-laden filter aid material can be measured.

In one embodiment of the invention, it is provided that the bulk density of the filter aid material loaded with wet-paint overspray is measured as a property. It has been found that, for example, larger agglomerates of wet-paint overspray particles and filter aid material particles form with increasing degree of loading of the filter aid material, so that the bulk density of the wet-paint overspray-laden filter aid material changes. By measuring the bulk density of the wet-paint overspray-laden filter aid material can thus be concluded that the degree of loading of the filter aid.

Alternatively or additionally, it can also be provided that individual particles, for example agglomerates of wet-paint overspray particles and filter aid particles, are used to determine the mass density of the filter aid material loaded with wet-paint overspray. Such a measuring method can be carried out in particular after removal of a sample of the wet-paint overspray-laden filter aid material on this sample.

In one embodiment of the invention, it is provided that the mean particle size and / or the particle size distribution of the filter aid material loaded with wet-paint overspray is measured as a property. In this way, it is particularly easy to deduce the amount of wet paint overspray deposited on the filter aid material and thus the degree of loading of the filter aid material loaded with wet paint overspray.

In one embodiment of the invention, it is provided that the mean particle size and / or the particle size distribution of the wet-paint overspray-laden filter aid material is measured by means of a laser device. In particular, the current size of the wet-paint overspray-laden filter aid material particles and / or the agglomerates of wet-paint overspray particles and filter aid material particles can be determined by laser scattering and / or laser diffraction, and the degree of loading of the filter aid material can be determined therefrom.

It may be favorable if, in addition to the at least one physical and / or chemical property, the total mass of the filter aid material loaded with wet-paint overspray is determined. In this way, in particular by a determination of the total mass prior to cleaning the filter elements and / or after cleaning the filter elements to the presence of undesirable deposits on the inner surfaces of the filter device are closed, because such deposits to a weakening of the usually expected during operation of the filter device Increase in the total mass of the wet paint overspray loaded filter aid lead.

It can be advantageous if, for the measurement of at least one property of the wet-paint overspray-laden filter aid material, a sample of the filter aid material loaded with wet-paint overspray is taken. Thus, in particular, it may be provided that a sample is taken from the filter aid material receiving container, from the walls of the filter device, directly from a filter element, from the raw gas stream and / or from a removal line for removing loaded filter aid material from the filter aid material receiving container. Furthermore, it can be provided that a sample of the filter aid material not loaded with wet paint overspray is taken. In particular, a sample of the non-wet-paint overspray-loaded filter aid may be removed from the supply line for delivery of fresh filter aid to the filter device and / or from a fresh filter aid reservoir. The measurement of at least one property of a sample of the filter aid material not loaded with wet paint overspray preferably serves to determine a reference value for a later measurement of the same property of the filter aid material loaded with wet paint overspray.

In one embodiment of the invention, it may be provided that a loss-loss measurement and / or a viscosity measurement of the wet-paint overspray-laden filter aid material and / or the fresh filter aid material not loaded with wet-paint overspray is carried out on the sample.

An ignition loss measurement may, for example, according to the Standard DIN 18128 or based on this standard. In an ignition loss measurement, the ratio of the weight of the sample before performing an annealing process and the weight of the sample after performing the annealing process is preferably determined. Since the preferably inorganic filter aid material always remains as incineration residue, while the wet paint overspray together with solvent, for example water or organic solvent, at least partially and preferably completely during the annealing process escapes, it can be concluded by means of loss index measurement on the degree of loading of the loaded with wet paint overspray filter aid.

In the case of a viscosity measurement of the wet-paint overspray-laden filter aid material and / or of the filter aid material not loaded with wet-paint overspray, a defined amount of the taken sample is introduced into a measuring cell. For example, by means of an agitator then a resistance of the filter aid material is detected when stirring it in the measuring cell in the form of a voltage applied to the agitator torque. In particular, by comparing the measured values, the degree of loading of the filter aid material can be determined therefrom.

In one embodiment of the invention it can be provided that, for the viscosity measurement, a reference liquid, for example paraffin or a solvent contained in the wet paint overspray, is gradually added to the sample in the measuring cell for viscosity measurement during the measurement. From a measured torque curve can be concluded then on the degree of loading of the filter aid.

It can be advantageous if the measurement of at least one property of the wet-paint overspray-laden filter aid material takes place during filter operation of the filter device. In this way, an in situ determination of the degree of loading of the wet-paint overspray-laden filter aid material can take place.

Alternatively or additionally, it may be provided that the measurement of at least one property of the filter aid material loaded with wet paint overspray takes place during an interruption of the filter operation of the filter device. In this way, a particularly accurate determination of the degree of loading, for example by a combination of the information obtained by measuring the physical and / or chemical property with the information obtained from the determination of a total mass of the mixture of wet paint overspray and filter aid material, is possible.

In one embodiment of the invention, it is provided that a mechanical treatment of the wet-paint overspray loaded filter aid material is carried out and from a mechanical resistance occurring in this treatment at least one property of the wet-paint overspray-laden filter aid material is determined. Thus, it can be provided in particular that by means of a stirring device, preferably in the Filterhilfsmaterialaufnahmebehälter, there is a thorough mixing of the loaded with wet paint overspray filter aid. From the occurring during this mixing torque curve in the stirring device can then be closed to the degree of loading of the filter aid. Mechanical treatment of the wet-paint overspray-loaded filter aid, particularly when carried out in the filter-aid reservoir, has the advantage that agglomerates of wet-paint overspray and filter aid can be broken so that easier re-use of the filter aid to reuse it is possible.

It may be favorable if the measurement of at least one property of the wet-paint overspray-laden filter aid material without direct physical contact of a measuring device with the wet-paint overspray-laden filter aid material. In particular, if the measuring device used to measure the at least one property of the wet-paint overspray-loaded filter aid can be quickly contaminated by contact with the filter aid and further measurements thereby impaired, avoidance of direct physical contact of the measuring device with the Wet-paint overspray loaded filter aid a reliable operation of the measuring device can be ensured. For this purpose, the measuring device preferably comprises at least one non-contact sensor, for example a laser device, by means of which a determination of the at least one property of the filter aid material loaded with wet-paint overspray is possible, for example through a (translucent) wall of the filter aid material receptacle.

Preferably, several measurements of the same property are performed and an average determined. In this way, it is possible to prevent a sampling process from being initiated too soon, due to individual measurements that are not representative of the entire state of the filter aid, and thus that useful filter aid material is still wasted.

It is favorable if at least one value which reproduces the at least one measured characteristic of the wet-paint overspray-laden filter aid material is compared with at least one predetermined reference value and at least a part of the filter aid material reservoir loaded with wet-paint overspray is exceeded and / or or falling below the predetermined limit value is removed from the filter material storage container. By comparing a measured value with a predetermined reference value, an automatic removal of filter aid material with a too high degree of loading from the filter aid material receiving container can take place in particular.

As a substitute for the removed filter auxiliary material, the filter aid material receiving container is then preferably supplied with fresh filter aid material not loaded with wet paint overspray.

In particular, the reference value is a limit value which indicates that the filter aid material loaded in the filter device and coated with wet paint overspray has reached a critical degree of loading at which no further absorption of wet paint overspray is possible, so that an undesired clogging of the filter during continuous filter operation Filter elements of the filter device would be feared.

In particular, when at regular intervals a part of the arranged in the filter material storage container filter aid is replaced by fresh, not coated with wet paint overspray filter aid, the determination of the degree of loading of the filter aid can be used to determine the amount of filter aid to be replaced.

In an advantageous embodiment of the invention, it is provided that an indicator material is added to the filter aid material and / or the raw gas stream, which enhances an effect that is used to measure at least one property of the loaded with wet paint overspray filter aid. For example, it may be provided that a substance is added to the filter aid, which substance reacts chemically with the wet paint overspray and thereby leads to a greater change in the permittivity of the filter aid material loaded with wet paint overspray, so that a simpler and thus less error-prone measurement of the permittivity of the wet paint overspray loaded filter aid is possible.

It may be favorable if at least one measurement of at least one property of the filter aid in a reservoir for receiving fresh, not loaded with wet paint overspray filter aid material and / or in a supply line for supplying fresh filter aid to the filter device is performed. The result of such a measurement may then be compared, for example, with the result of measuring the same property of the wet paint overspray loaded filter aid in the filter media reservoir and / or in at least one sample line to remove wet paint overspray loaded filter media from the filter media reservoir. The result of such a comparison can serve, for example, to influence a control for the removal of the wet paint overspray-laden filter aid material from the filter aid material receptacle. Thus, in particular, it may be provided that a regular removal cycle is adapted in time, for example is extended, if the determined degree of loading is rather low, or is shortened if an excessively high degree of loading is determined.

The control of the removal is not necessarily immediately after the determination of the degree of loading of the filter aid. Rather, it can also be provided that a removal is delayed in time or delayed as a function of a number of painting operations performed.

The present invention has the further object of providing a filter device in which an efficient and cost-saving, as late as possible exchange of filter aid material can take place.

• – mindestens ein Filterelement, welchem der mit Nasslack-Overspray beladene Rohgasstrom zuführbar ist;
• – einen Filterhilfsmaterialaufnahmebehälter zur Aufnahme von mit Nasslack-Overspray beladenem Filterhilfsmaterial;
• – mindestens eine Messvorrichtung zur Messung mindestens einer physikalischen und/oder chemischen, beispielsweise intrinsischen, Eigenschaft eines Anteils des mit Nasslack-Overspray beladenen Filterhilfsmaterials;
• – eine Entnahmevorrichtung zum Entfernen von mit Nasslack-Overspray beladenem Filterhilfsmaterial aus dem Filterhilfsmaterialaufnahmebehälter;
• – eine Steuervorrichtung, mittels welcher die Entnahmevorrichtung steuerbar ist.

This object is achieved by a filter device, in particular by a filter device for carrying out the method according to the invention, which comprises:

• - At least one filter element to which the loaded with wet paint overspray raw gas stream can be fed;
• A filter aid receptacle for receiving wet-paint overspray-loaded filter aid material;
• At least one measuring device for measuring at least one physical and / or chemical, for example intrinsic, property of a portion of the wet-paint overspray-laden filter aid material;
• A removal device for removing wet-paint overspray-loaded filter aid material from the filter aid material receptacle;
• - A control device by means of which the removal device is controllable.

Preferably, by means of the control device from the at least one measured property of the wet-paint overspray-loaded filter aid a ratio between wet paint overspray and filter aid material in Filterhilfsmaterialaufnahmebehälter and / or a degree of loading of the present in Filterhilfsmaterialaufnahmebehälter filter aid with wet paint overspray can be determined.

The filter device according to the invention preferably has the features and / or advantages described above in connection with the method according to the invention.

In particular, it can be provided that the measuring device comprises a sensor which is used to measure the at least one property of the wet-paint overspray-laden Filter auxiliary material in the use state of the filter device is substantially completely covered with the wet paint overspray loaded filter aid. The sensor is arranged for this purpose, for example, in a near-bottom region of the Filterhilfsmaterialaufnahmebehälters. In this way it can be prevented that, for example when determining the permittivity of the filter aid material arranged in a certain spatial region, the result of the measurement of the at least one property is falsified by the fact that in this spatial region only a small amount of filter aid material loaded with wet-paint overspray is arranged.

In an advantageous embodiment of the invention it is provided that the measuring device comprises a capacitive sensor. In this way, in particular the permittivity of the wet-paint overspray-laden filter aid material is easily measurable.

In one embodiment of the invention, it is provided that the filter device comprises a sampling device for separating a Filterhilfsmaterialprobe from the arranged in the filter device, loaded with wet paint overspray filter aid material. A filter aid material sample is to be understood as a subset of the filter aid material used during operation of the filter device and optionally loaded with wet paint overspray.

As the filter aid material, it is preferable to use any medium which is capable of absorbing a liquid portion of the wet paint overspray. For this purpose, in particular lime (limestone powder), stone powder, aluminum silicates, aluminum oxides, silicon oxides, powder coating or the like come into consideration.

Alternatively or additionally, as a filter aid for receiving and / or binding the wet paint overspray and particles having a cavity structure and relative to their outer dimensions large inner surface may be used, such as zeolites or other hollow, such as spherical body made of polymers, glass or aluminum silicate and / or naturally or synthetically produced fibers.

Further, as a filter aid for receiving and / or binding the wet paint overspray and chemically reactive with the wet paint overspray particles are used, for example, chemically reactive particles of amine, epoxy, carboxyl, hydroxyl or isocyanate groups, chemically reactive particles with Octylsilane aftertreated alumina or solid or liquid mono-, oligo-, or polymers, silanes, silanols or siloxanes.

Preferably, the filter aid material is comprised of a plurality of filter aid material particles having a mean diameter in the range of, for example, about 10 μm to about 100 μm.

Furthermore, the method according to the invention and / or the filter device according to the invention can have the features and / or advantages described below:
In particular, a capacitive sensor may offer the advantage that a stray electromagnetic field, which is generated for example by means of a field generating device, is reliably measured. In this way, even if a sensor surface is slightly covered with filter aid material and one is unable to completely clean the sensor surface from the wet-paint overspray-loaded filter aid material upon replacement of the filter aid, a reliable measurement of a wet-paint overspray property can be obtained loaded filter aid material, because the influence of the remaining on the sensor surface layer on the measurement result due to the electromagnetic stray field is low.

The process according to the invention preferably provides a continuous process control. Thus, for example, a signal supplied by a measuring device for measuring the at least one property of the wet-paint overspray-laden filter aid, which is in particular an analog signal, can be continuously evaluated.

It can be advantageous if the method according to the invention is combined with the use of a balance for determining the total mass of the filter aid material loaded in the filter device and loaded with wet-paint overspray. As a result, statements about the quality of the filter aid, about agglomerates of wet paint overspray and filter aid, on the application of filter aid material to the filter elements and / or about cleaning the filter aid from the filter elements are taken, so that a self-optimization of the filter device with respect to the Degree of loading of the filter aid is possible.

In particular, when the filter aid material receiving container is funnel-shaped, it can be provided that a sensor of the measuring device is arranged in a lower region of the funnel and / or below the funnel. Alternatively or additionally, it can be provided that at least one sensor of the measuring device is arranged on at least one (side) wall of the funnel-shaped filter aid material receiving container. Alternatively or additionally, it may further be provided that at least one sensor of the Measuring device on a (side) wall of the filter device, for example, on a (side) wall of a filter box of the filter device, is arranged. In this way, the development of caking agglomerates from wet-paint overspray-loaded filter aid can be monitored.

The inventive method and / or the filter device according to the invention preferably provide a high degree of automation.

Conveniently, a direct determination of the degree of loading of the filter aid with wet paint overspray is possible.

Furthermore, in the method according to the invention, measurement errors are preferably reduced.

The method according to the invention preferably makes possible an improved operating method in which an exchange of the filter aid material can take place as late as possible in a particularly efficient and cost-saving manner.

Preferably, the inventive measurement of the physical / chemical property of a portion of the contents of the filter aid storage container on the overall state of the filter aid in the container can be closed, the measurement as such is in particular easier and less expensive to carry out than weighing the entire contents of the container.

For example, a volume of container content determined in terms of volume may be weighed to determine its property (bulk density). It can be advantageous if volume-identical batches of the filter aid material are removed from the container by means of a paddle wheel operated in clocked intervals over relatively long time intervals and weighed separately in a small measuring cell below / to the side of the container, or illuminated in an electric / magnetic field for measurement.

Further features or advantages of the present invention are the subject of the following description and the drawings of exemplary embodiments.

In the drawings show:

1 a schematic perspective view of a paint booth with an underlying device for separating wet paint overspray from a loaded with wet paint overspray raw gas stream;

2 a schematic vertical cross section through the spray booth and the device for separating wet paint overspray 1 ;

3 one of the 2 corresponding schematic vertical cross section through the paint booth and the device for separating wet paint overspray 1 , with additionally shown in the form of arrows local flow directions of the raw gas stream;

4 a schematic plan view from above of the spray booth from the 1 to 3 ;

5 a schematic vertical cross section through a filter device of the apparatus for separating wet paint overspray;

6 a schematic perspective view of the filter device 5 ;

7 a schematic vertical cross-section through a filter aid storage container of the filter device from the 5 and 6 with a measuring device and a swirling device arranged in the interior of the filter aid material accommodating container;

8th a schematic representation of an apparatus for supplying fresh filter aid material from a reservoir to the Filterhilfsmaterialaufnahmebehältern the device for separating wet paint overspray from the 1 to 3 ;

9 a schematic representation of a removal device for removing loaded with wet paint overspray filter aid material from the Filterhilfsmaterialaufnahmebehältern the device for separating wet paint overspray from the 1 to 3 ;

10 a schematic vertical cross-section through an alternative embodiment of a Filterhilfsmaterialaufnahmebehälters, which comprises a vertically oriented stirring device;

11 a schematic plan view from the top of the filter aid material receptacle 10 ;

12 a schematic vertical cross-section through another alternative embodiment of a filter aid storage container, in which a horizontally oriented stirring device is provided;

13 a schematic plan view from the top of the filter aid material receptacle 12 ;

14 a schematic perspective view of a Filterhilfsmaterialaufnahmebehälters and a measuring device; and

15 a schematic representation of a removal device for removing loaded with wet paint overspray filter aid material from the Filterhilfsmaterialaufnahmebehälter, wherein a measuring device is arranged at a sampling line.

Equal or functionally equivalent elements are provided with the same reference numerals in all figures.

One in the 1 to 15 shown as a whole with 100 designated paint shop for painting vehicle bodies 102 includes a paint booth 104 and one below the paint booth 104 arranged device for separating wet paint overspray 106 from a wet gas overspray laden raw gas stream from the spray booth 104 ,

The basic structure of such a paint shop 100 is from the DE 10 2007 040 900 A1 to which reference is hereby made and the content of which is hereby incorporated by reference.

The paint shop 100 includes a conveyor 108 , which in the paint booth 104 is arranged and the promotion of vehicle bodies 102 through the paint booth 104 in a conveying direction 110 serves.

By means of the conveyor 108 become the vehicle bodies 102 in particular by an application area 112 the paint booth 104 promoted, wherein in the application area 112 by means of painting robots 114 the paint shop 100 a paint on the vehicle bodies 102 can be applied.

When applying paint on the vehicle bodies 102 Overspray particles are generated, that is, liquid or solid particles that are not on the vehicle body 102 but as contamination in the air in the paint booth 104 remain.

When using wet paint for painting vehicle bodies 102 the overspray is a wet paint overspray.

To an undesirable contamination of the vehicle bodies 102 and / or components of the paint booth 104 With wet paint overspray to avoid, the paint booth becomes 104 through an over the paint booth 104 arranged (not shown) Plenum the paint shop 100 an air flow in a vertically oriented flow direction 115 supplied, so that the overspray particles down from the application area 112 the paint booth 104 be pushed out.

By means of under the spray booth 104 arranged device for separating wet paint overspray 106 the wet paint overspray is removed from the air, that is through the paint booth 104 Guided air is removed by means of the device for separating wet paint overspray 106 cleaned.

The mixture of air and wet paint overspray is referred to below as the raw gas stream.

The device for separating wet paint overspray 106 thus serves to clean the laden with wet paint overspray raw gas stream.

In particular 1 can be seen, includes the device for separating wet paint overspray 106 several, for example six, filter devices 116 which in two with respect to a longitudinal central axis 118 ( 2 ) are arranged opposite one another, arranged parallel to each other rows of three. The with respect to the longitudinal central axis 118 oppositely arranged filter devices 116 are with respect to the longitudinal central axis 118 each formed mirror-symmetrically to each other.

As in particular the 5 and 6 As can be seen, includes each of the filter devices 116 a substantially cuboid, downwardly open filter box 120 in which, for example, two substantially cuboid filter elements 122 are arranged.

The filter elements 122 serve the addition of wet paint overspray to separate the wet paint overspray from the laden with wet paint overspray raw gas stream.

Further, each of the filter devices comprises 116 one under the filter box 120 arranged, downwardly open Filterhilfsmaterialaufnahmebehälter 124 which has the shape of a downwardly tapered, inverse square truncated pyramid and serves to receive filter aid.

In a side wall 125 the filter device 116 is between the filter box 120 and the filter aid receptacle 124 an inlet slope 126 provided, over which the filter device 116 the loaded with wet paint overspray raw gas stream can be fed.

A baffle 128 , which over the inlet slope 126 on the filter box 120 is arranged, serves the additional air flow and the prevention of undesirable leakage of filter aid material from the filter device 116 ,

The filter aid material is, for example, limestone powder, which can absorb moisture of the wet paint overspray and thus prevents the wet paint overspray the pores of the filter elements 122 added and the filter elements 122 consequently clog too fast.

The in the filter aid receptacle 124 arranged filter aid material can by means of a in 7 shown Aufwirbelungseinrichtung 130 whirled up and so in an interior 132 the filter device 116 be distributed (see also 5 ). The filter aid thus lays on the filter elements as a protective layer 122 and prevents the wet paint overspray from adhering directly to the filter elements 122 , Therefore, the filter aid material is also referred to as "precoat" material.

The mixture of wet paint overspray and filter aid forms on the filter elements 122 an easy-to-clean filter cake. The filter cake can be removed, for example, by means of a (not shown) Rückströmeinrichtung. By means of such a return device, the filter elements 122 at regular intervals or if there is too much pressure drop in the filter device 116 contrary to the filter operation of the filter device 116 prevailing flow direction subjected to compressed air, so that the filter cake from the filter elements 122 drops.

The filter aid is further by means of the Aufwirbelungseinrichtung 130 regularly or continuously in the interior 132 the filter device 116 distributed so that already at the flow through the interior 132 with the raw gas stream, the wet paint overspray contained therein can adhere to the filter aid.

The filter aid receptacle 124 especially takes that from the filter elements 122 cleaned mixture of wet paint overspray and filter aid (the filter cake) on.

In the filter aid receptacle 124 is a measuring device 134 for measuring at least one intrinsic property of the wet-paint overspray-loaded filter aid material.

The measuring device 134 includes a sensor for this purpose 136 , which is at least temporarily completely covered with the wet paint overspray loaded filter aid.

The sensor 136 is for example as a capacitive sensor 136 designed so that by means of the measuring device 134 As an intrinsic property, the permittivity of the wet-paint overspray-loaded filter aid can be measured.

The measuring device 134 is at the in 7 illustrated embodiment of the Filterhilfsmaterialaufnahmebehältters 124 together with the fluidizing device 130 at an inspection door 138 of the filter aid receptacle 124 arranged so that both the measuring device 134 as well as the Aufwirbelungseinrichtung 130 for example, for maintenance purposes simply from outside the filter device 116 are accessible.

As further also 7 can be seen, the measuring device 134 also a non-contact sensor 140 include, that is, a sensor 140 which is in operation of the filter device 116 does not come into direct contact with the wet-paint overspray-laden filter aid. The non-contact sensor 140 is in particular on a side wall 142 of the filter aid receptacle 124 arranged so that on the side wall 142 Caking agglomerates can be monitored by wet paint overspray loaded filter aid.

Alternatively or additionally, further sensors may be used 136 . 140 on or directly under a bottom wall 144 of the filter aid receptacle 124 be arranged.

In particular 8th can be seen, includes the paint shop 100 a feeder 146 for feeding filter aid material from a storage container 148 to the filter devices 116 ,

In the reservoir 148 is stored fresh filter aid, which is not loaded with wet paint overspray. The storage tank 148 is by means of supply lines 150 with the filter aid receptacles 124 the filter devices 116 connected, wherein a metering pump 152 the feeder 146 is provided, by means of which the fresh filter aid material from the reservoir 148 the filter aid receptacles 124 the filter devices 116 can be fed.

Furthermore, the delivery device comprises 146 one in the feed line 150 arranged measuring device 154 , by means of which at least one intrinsic property of the fresh filter aid is measurable.

The result of the measurement by means of the measuring device 154 For example, it may be used as a reference for comparison with the results of other measurements on wet-paint overspray loaded filter aid.

Because the need for fresh filter aid is not for all filter devices 116 are uniform, are in the supply lines 150 several valves 156 provided by means of which a feed path to the filter aid material receptacles 124 the various filter devices 116 can be selectively opened or closed to a particular filter aid receptacle 124 specifically to be able to supply fresh filter auxiliary material.

In particular 9 can be seen, includes the paint shop 100 Furthermore, a removal device 158 for removing at least a portion of the wet paint overspray loaded filter aid material from the filter aid material receptacles 124 the filter device 116 ,

The removal device 158 includes a suction fan 160 , which by means of sampling lines 162 with the filter aid receptacles 124 the filter devices 116 communicates.

By means of the suction fan 160 may use wet-paint overspray loaded filter aid from the filter aid reservoirs 124 through the sampling lines 162 a receptacle 164 be supplied for used filter aid.

In the sampling lines 162 the removal device 158 are valves 161 arranged, by means of which removal paths from the filter aid material receptacles 124 can be selectively opened or closed to from a particular filter aid receptacle 124 to remove specifically with wet paint overspray contaminated filter aid.

Furthermore, the removal device comprises 158 several measuring devices 166 wherein each of the filter aid reservoirs 124 the filter devices 116 one measuring device each 166 assigned.

By means of measuring devices 166 can thus for each of the filter aid material receptacle 124 the filter devices 116 separately a degree of loading of the filter aid removed therefrom can be determined.

As in particular the 6 and 11 it can be seen, the filter device 116 a sampling device 168 exhibit. By means of the sampling device 168 can deliberately a predetermined amount of wet paint overspray loaded filter aid material from the filter aid material receptacle 124 be removed. The sampling device 168 has, for example, a rotatable paddle wheel 169 on which in a sidewall 142 of the filter aid receptacle 124 is arranged and by means of which the predetermined amount of sample from the interior 132 of the filter aid receptacle 124 transported to the outside or at least can be separated from the remaining filter aid.

One by means of the sampling device 168 The filter aid sample taken can then be analyzed to determine at least one intrinsic property of the wet-paint overspray-loaded filter aid for determining the degree of loading of the filter aid.

Preferably, this analysis is by means of the sampling device 168 feasible.

In particular, an ignition loss measurement and / or a viscosity measurement on the filter aid material sample can be carried out in this case.

Like that 10 and 11 can be seen in an alternative embodiment of a Filterhilfsmaterialaufnahmebehältters 124 a filter device 116 in addition to the fluidizing device 130 and the measuring device 134 a stirring device 170 be provided, by means of which a mixing of the filter in the auxiliary material receiving container 124 arranged, can be done with wet paint overspray loaded filter aid.

The stirring device 170 includes a vertically aligned shaft 172 , which with paddles 174 is provided and which by means of, for example, electromotive, pneumatic or hydraulic drive device 176 around a vertical axis 177 can be turned.

The stirring device 170 forms a mechanical treatment device 178 for the mechanical treatment of the wet paint overspray loaded filter aid.

The mechanical treatment device 178 is itself a measuring device 134 because by detecting a resistance which counteracts the intended rotational movement during stirring of the wet-paint overspray-loaded filter aid material and can be measured in the form of a torque, an inference to an intrinsic property of the wet-paint overspray-laden filter aid material and thus a Conclusion on the degree of loading of the filter aid is possible.

For example, in an electromotive drive device 176 From the required drive power conclusions on the for the rotational movement of the shaft 172 necessary torque to be pulled.

One in the 12 and 13 shown, further alternative embodiment of a filter aid material receptacle 124 is different from the one in the 10 and 11 illustrated embodiment in that the shaft 172 the stirring device 170 aligned horizontally and the drive device 176 the stirring device 170 outside the filter aid storage container 124 the filter device 116 is arranged.

Furthermore, in the in the 12 and 13 illustrated embodiment of the Filterhilfsmaterialaufnahmebehältters 124 one as a laser measuring device 179 trained measuring device 134 for measuring at least one intrinsic property of the wet-paint overspray-laden filter aid material, for example for measuring the particle size distribution by means of laser scattering and / or laser diffraction.

In 14 is a schematic representation of a Filterhilfsmaterialaufnahmebehältters 124 with a measuring device 134 played.

A sensor 140 the measuring device 134 is on the filter aid receptacle 124 arranged, in particular in a fluid box of the Filterhilfsmaterialaufnahmebehältters 124 in which filter aid material or a mixture of filter aid material and wet paint overspray is fluidized integrated.

By means of the sensor 140 For example, a wet paint overspray content can be registered directly in the filter aid.

An evaluation device 182 , which is formed for example by a programmable logic controller (PLC), is used for evaluation by means of the sensor 140 determined values. In particular, in the evaluation device 182 a desired value W _s for a quantity ratio between wet paint overspray and filter aid deposited, which can be programmed for example self-optimizing. If a measured value W _{a exceeds} the set desired value W _s , then an exchange process E can be initiated so that filter aid material loaded too heavily with wet-paint overspray is replaced by fresh filter aid material. Alternatively or additionally, a saturation value can be used as setpoint value W _s for comparison with an actual value W _a .

As a sensor 140 For example, a humidity measuring system can be used. By means of this measuring system, a moisture content, in particular a water content, in bulk materials and liquids or a dry substance can be determined.

Such a sensor 140 preferably allows a measurement data acquisition by a capacity determination of a sample in a high-frequency stray field, for example at a frequency between about 0.016 GHz and about 0.022 GHz, wherein measurements inside or outside a container, for example a silo for spent filter auxiliary material (receptacle 164 ) or a filter aid receptacle 124 , on and / or over baffles, on sliders with slide shoes, on dryers, in pipes, in tanks or in supply lines 150 or sampling lines 162 can be performed.

A sensor 140 preferably has a measuring range between 0% and 100% moisture content, wherein a measuring window is preferably adjustable. A capacity resolution is preferably about 10 fF. Preferably, an update cycle is about 32.64 ms. A sampling rate of a mean counter is preferably between about 16 × 10 ⁶ and about 25 × 10 ⁶ . A maximum achievable measurement accuracy is preferably about ± 0.05% F.

A sensor 140 preferably allows a digital measured value transmission by means of a multiprocessor protocol, for example via the Standard RS 485 , Preferably, at least 16 sensors 140 connectable per bus. A maximum bus length is preferably at least about 1.2 km.

A sensor 140 has, for example, a microprocessor of the AT89C51ED2 type. A power supply is preferably at a voltage between about 8V and about 30V at a power of about 0.4VA.

A sensor 140 preferably allows a temperature measurement in a range between about -10 ° C and about 90 ° C with a measurement accuracy of about ± 0.5 ° C. An operating ambient temperature of the sensor 140 is preferably between about 5 ° C and about 72 ° C with an operating temperature of the electronics preferably between about -20 ° C and about 80 ° C. A storage temperature is preferably between about -25 ° C and about 80 ° C.

A sensor 140 preferably has the degree of protection IP68, wherein a connecting line of the Type LiYD11Y 6 × 0.14 mm ^{2 is provided} with a length of, for example, about 6 m.

Wear protection is ensured by ZrO ₂ Al ₂ O ₃ / PEEK. A housing and / or flange of a sensor 140 is preferably formed of the material V4A (1.4404) and has a height of, for example, about 57 mm and a diameter of, for example, about 78 mm. The mass of a sensor 140 is for example about 500 g (without cable). A clamping flange for the arrangement of the sensor 140 has a mass of, for example, about 300 g.

A sensor 140 is preferably a "smart" sensor, that is, a built-in microprocessor provides enhanced functionality. In particular, by means of the sensor 140 a direct digital measuring method possible. Furthermore, a sensor has 140 preferably the following features:
Calibration data memory, linearization, limit value investigation, start / stop control, average value calculation, temperature measurement, temperature compensation, material-specific adjustment, digital interface / networking and / or output possibility of error messages.

A calibration of the sensor 140 preferably allows full reproducibility of data over a wide temperature range, so that a material-specific adjustment can also be transferred to other measuring sections. A new adjustment is preferably dispensable if a sensor 140 is exchanged.

A sensor 140 receives from a control device preferably a measurement order and then provides a measurement result ready prepared at the right time available, whereby a data transfer thereby reduced to a minimum and the resources of higher-level controllers are charged less.

A sensor 140 can for example be mounted by means of a clamping flange in a container, a slide carriage, a metering table and / or in a material chute. By moving in the flange, the sensor 140 For example, with wall thicknesses of about 1 mm to about 25 mm, flush mounted.

In principle, a filter aid material receptacle 124 a filter device 116 with any single or any combination or even all of them in the 1 to 14 described measuring devices 134 be provided. Alternatively or additionally, measuring devices 134 . 154 . 166 at the feeder 146 or the sampling device 158 be provided (see 15 ).

In 15 is a sampling device 158 with a measuring device 166 shown schematically, each with a Filterhilfsmaterialaufnahmebehälter 124 a pinch valve 184 is assigned, by means of which a mixture of filter aid material and wet paint overspray from the Filterhilfsmaterialaufnahmebehälter 124 taken and the sampling line 162 a receptacle 164 can be supplied for contaminated filter aid.

In the sampling line 162 is according to the in 9 illustrated embodiment of the removal device 158 a measuring device 166 intended. This can be a sensor 140 for several filter aid storage containers 124 be used.

The measuring device 166 can, for example, a sensor 140 according to the in 14 have described embodiment. A measurement can be carried out at standstill of the removed filter aid or in passing.

Also with this measuring device 166 is an evaluation device 182 provided, which is designed for example as a programmable logic controller (PLC) and the comparison of a means of the sensor 140 determined actual value W _a with predetermined setpoint values W _s .

Alternatively or additionally, a workpiece counter (box counter) may be provided to determine a replacement time. By means of the sensor 140 The workpiece counter can be adapted to fluctuations in the paint entry. The maximum number of workpieces recorded in the workpiece counter, which reflects how many workpieces (vehicle bodies 102 ) can be painted before replacement of the filter aid material must be increased, if one by means of the sensor 140 detected actual value W _{a is} smaller than a desired value W _s , that is, that a lower degree of loading is present than expected.

Accordingly, the maximum number of workpieces is reduced if the determined degree of loading is higher than expected, that is, the actual value W _{a is} greater than the desired value W _s .

By means of the evaluation device 182 is at the in 15 illustrated measuring device 166 a time t _{E can be} determined, at which an exchange of filter aid material in the filter material storage container 124 should be performed to improve the functionality of the filter device 116 to ensure.

Furthermore, at the in 15 illustrated embodiment of the filter devices 116 provided that each filter aid receptacle 124 a balance 186 is assigned, by means of which the total mass of the Filterhilfsmaterialaufnahmebehältters 124 can be determined together with the mixture of filter aid material and wet paint overspray disposed therein.

In particular, by the combined determination of a degree of loading by means of the sensor 140 the measuring device 166 and the total mass by means of the balance 186 For example, particularly reliable values for the degree of loading of the filter aid material with wet paint overspray can be obtained so that an efficient and cost-saving replacement of the filter aid material taking place as late as possible can be carried out.

Basically, single or multiple characteristics are related to the 14 and 15 described measuring devices 134 . 166 . 186 to the previously described measuring devices 134 . 154 . 166 as an alternative or addition transferable.

The control of individual, several or all devices of the paint shop 100 takes place by means of a control device 180 ,

In a further embodiment (not shown), each filter device comprises 116 a separate feeder 146 , a separate sampling device 158 and a separate control device 180 so that every filter device 116 , for example by means of the separate control device 180 , can be controlled separately.

The paint shop described above 100 works as follows:
By means of the conveyor 108 becomes a vehicle body 102 through the application area 112 in the paint booth 104 in the conveying direction 110 conveyed. By means of the painting robots 114 Wet paint is applied to the vehicle body 102 sprayed, resulting in wet paint overspray.

The wet paint overspray is from a vertical from the top of the paint booth 104 introduced air flow and taken together with this air flow as a wet paint overspray laden raw gas stream of the device for separating wet paint overspray 106 fed.

In the apparatus for separating wet paint overspray 106 is the laden with wet paint overspray raw gas stream to the filter devices 116 distributed and over the inlet slopes 126 the interiors 132 the filter devices 116 supplied (see in particular 3 and 5 ).

Each of the interiors 132 the filter devices 116 is at least partially filled with filter aid, which by means of a Aufwirbelungseinrichtung 130 in the interior 132 is distributed and as a protective layer on the filter elements 122 adheres.

The one in the interior 132 introduced, loaded with wet paint overspray raw gas stream comes into contact with the filter aid, wherein the filter aid absorbs at least a portion of the wet paint overspray. Together with the filter aid material or as separate particles, the wet paint overspray is deposited on the filter elements protected by filter aid material 122 at.

At regular intervals, the filter elements 122 by a backwashing device of the on the filter elements 122 formed filter cake freed.

The mixture of wet paint overspray and filter aid material thereby falls into the filter aid material receptacle 124 ,

Depending on the degree of loading of the filter aid with wet paint overspray, the mixture of wet paint overspray and filter aid material can again to form a protective layer on the filter elements 122 and used to receive wet paint overspray. For this purpose, the mixture of wet paint overspray and filter aid material in the filter aid material receptacle 124 by means of the Aufwirbelungseinrichtung 130 stirred up again and in the interior 132 the filter device 116 distributed.

Whether the filter aid material loaded with wet-paint overspray is suitable for further use for absorbing wet-paint overspray can be determined by means of the measuring devices 134 . 154 . 166 be determined.

For this purpose, by means of at least one measuring device 134 . 166 an intrinsic property of the wet-paint overspray-loaded filter aid, for example the permittivity, the bulk density, the average particle size and / or the particle size distribution of the wet-paint overspray-loaded filter aid.

By comparison with at least one reference value which, for example, by measuring the same intrinsic property by means of the measuring device 154 the feeder 146 can be determined, and / or by a comparison with at least one empirical value can from the at least one measured intrinsic property of the loaded with wet paint overspray Filter aid a degree of loading of the filter aid are determined.

Depending on the determined degree of loading of the filter aid can by means of the control device 180 a removal operation by means of the removal device 158 be triggered, so that too heavily loaded filter aid material at least partially from the Filterhilfsmaterialaufnahmebehältern 124 the filter devices 116 removed and by means of the feeder 146 with fresh filter aid from the reservoir 148 is replaced.

In this way it can be ensured that in the filter material reservoirs 124 the filter devices 116 arranged, used for separating wet paint overspray from the raw gas stream filter aid material always has a sufficiently low degree of loading and thus is always able to absorb more wet paint overspray. An undesirable clogging of the filter elements 122 the filter devices 116 with pure wet paint overspray is thus effectively prevented.

The measurement of an intrinsic property of the wet-paint overspray-laden filter aid for determining the degree of loading of the filter aid allows in particular a continuous determination of the degree of loading of the filter aid, so preferably at any time and for each filter device 116 can be determined separately, whether in the respective filter device 116 existing filter aid a reliable protection of the filter elements 122 and allows reliable cleaning of the wet gas overspray loaded raw gas stream.

Preferably, by measuring at least one physical and / or chemical property by means of at least one measuring device 134 . 154 . 166 . 186 a ratio of wet paint overspray to filter aid in the filter aid reservoir 124 and / or a degree of loading of the filter in the auxiliary material receiving container 124 existing filter aid with wet paint overspray can be determined. In particular, it is possible to determine an absolute value for the quantitative ratio and / or the degree of loading of the respectively withdrawn component and / or a relative change in the quantitative ratio and / or the degree of loading of the respectively withdrawn component.

Furthermore, it can be provided that by measuring at least one physical and / or chemical property by means of at least one measuring device 134 . 154 . 166 . 186 a proportion of liquid, in particular hydrocarbon-containing, solvent in the paint, a water content, a proportion of volatile substances (in terms of explosion protection measures) and / or shares of hazardous substances and / or heavy metals are determined.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102007040900 A1 [0002, 0085]

Cited non-patent literature

• Standard DIN 18128 [0030]
• Standard RS 485 [0140]

Claims (15)

Method for operating a filter device ( 116 ) for cleaning a wet gas overspray laden raw gas stream, comprising the following process steps: - deposition of wet paint overspray on at least one filter element ( 122 ) for separating the wet paint overspray from the raw gas stream, wherein a filter aid material accommodates at least a portion of the wet paint overspray, and collecting wet bag overspray loaded filter aid material in a filter aid material receptacle (US Pat. 124 ), characterized in that during operation of the filter device ( 116 ) at least one physical and / or chemical property of a fraction of the material contained in the filter aid material receptacle ( 124 ) collected filter aid material is measured. A method according to claim 1, characterized in that at least one intrinsic property of the wet-paint overspray-laden filter aid material for determining a degree of loading of the filter aid is measured and that at least a portion of the wet paint overspray loaded filter aid material from the Filterhilfsmaterialaufnahmebehälter ( 124 ) is removed as a function of the determined degree of loading of the filter aid. Method according to one of claims 1 or 2, characterized in that as a property, the permittivity of wet-paint overspray loaded filter aid material is measured. Method according to one of claims 1 to 3, characterized in that as a property, the bulk density of the wet paint overspray loaded filter aid material is measured. Method according to one of claims 1 to 4, characterized in that as a property, the average particle size and / or the particle size distribution of the wet paint overspray loaded filter aid material is measured. A method according to claim 5, characterized in that the average particle size and / or the particle size distribution of the wet paint overspray loaded filter aid material is measured by means of a laser device. Method according to one of claims 1 to 6, characterized in that in addition to the at least one physical and / or chemical property, the total mass of the loaded with wet paint overspray filter aid material is determined. Method according to one of claims 1 to 7, characterized in that for measuring at least one property of the loaded with wet paint overspray filter aid a sample of wet-paint overspray loaded filter aid material is taken. A method according to claim 8, characterized in that on the sample an ignition loss measurement and / or a viscosity measurement of the loaded with wet paint overspray filter aid material is performed. Method according to one of claims 1 to 9, characterized in that the measurement of at least one property of the wet paint overspray loaded filter aid material during the filter operation of the filter device ( 116 ) and / or during an interruption of the filter operation of the filter device ( 116 ) he follows. Method according to one of claims 1 to 10, characterized in that a mechanical treatment of the loaded with wet paint overspray filter aid material is carried out and from a mechanical resistance occurring in this treatment, at least one property of the loaded with wet paint overspray filter aid material is determined. Method according to one of claims 1 to 11, characterized in that several measurements of the same property are performed and an average value is determined. Method according to one of claims 1 to 12, characterized in that at least one value, which reproduces the at least one measured property of the wet paint overspray loaded filter aid, is compared with at least one predetermined reference value and at least a portion of the filter in the auxiliary material receiving container ( 124 ), loaded with wet paint overspray filter aid material when exceeding and / or falling below the predetermined limit value from the filter aid material receptacle ( 124 ) Will get removed. Method according to one of claims 1 to 13, characterized in that the filter aid material and / or the raw gas stream, an indicator material is added, which enhances an effect that is used to measure at least one property of the loaded with wet paint overspray filter aid. Filter device, in particular for carrying out a method according to one of claims 1 to 14, comprising: At least one filter element ( 122 ), to which the crude gas stream laden with wet paint overspray can be supplied; A filter aid receptacle ( 124 ) for receiving wet paint overspray loaded filter aid material; At least one measuring device ( 134 . 154 . 166 ) for measuring at least one physical and / or chemical property of a portion of the wet-paint overspray-loaded filter aid material; A removal device ( 158 ) for removing wet-paint overspray-loaded filter aid material from the filter-aid receptacle ( 124 ); A control device ( 180 ), by means of which the removal device ( 158 ) is controllable.

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