METHOD AND APPARATUS FOR MEASURING THE COLOR OF PRODUCTS

专利摘要:
The color of products, such as plaster or paint filled in containers (13), is checked in the course of the manufacture of the products, without removing the product-containing containers (13) from the production line by contacting the product color without contact by means of a spectrophotometer (14) is recorded. The detected color of the product is compared with a given standard and containers of products whose color deviates from the standard more than the specified tolerance are removed from production and the color of the product is corrected, if necessary.
公开号:AT510746A1
申请号:T1037/2011
申请日:2011-07-14
公开日:2012-06-15
发明作者:Bernhard Ringswirth
申请人:W & P Baustoffe Gmbh；
IPC主号:

专利说明:

• · 1 • · 1
·
The invention relates to a method and a system with which the color of products can be detected.
Particularly contemplated within the scope of the invention are products which are products used in construction, such as plasters (facade plasters) and paints (interior and exterior)
Exterior colors).
It is known in the manufacture of paints and / or plasters that are delivered in containers, raise a sample card in the context of quality control in a laboratory and to compare the color obtained with a color fan or a pattern. If the colors match, ie if the color of the sample is correct, the remaining production of the batch can be released and started. If color differences, ie deviations from the desired color, are detected, the container from which the sample has been taken is retanned in a station (offline station). In this case, the amount of color that is added during re-dyeing, automatically transferred to each individual container of the subsequent production of the batch.
The first container on which the paint has been tested is returned to the normal production cycle after being inspected by the laboratory. To avoid confusion, the first batch of follow-on production is detected by means of a barcode reader, so that, if one has accidentally tried to introduce a wrong container, it can be recognized by the wrong barcode on the container and the line can be stopped. An error message is displayed and the error can be corrected.
The known procedure is comparatively complicated and requires the discharge of at least one container (in particular the first container) of a batch from the production cycle. This means delays in the production process and gives rise to errors.
The invention has for its object to provide an improved method and a simplified system of the type mentioned.
This object is achieved according to the invention with a method having the features of claim 1.
The object is also achieved with a system which has the features of independent, directed to the plant claim.
Preferred and advantageous embodiments of the method and the system according to the invention are the subject of the dependent claims.
Depending on the embodiment, the invention makes it possible to carry out a detection and checking of the color of the product, without having to discharge a container in which the product to be tested is contained from the production cycle. It is thus possible to detect and check the color of the product " online " so that online color registration and / or measurement and / or review is possible. Color deviations are detected directly and without interruption during production.
The invention makes it possible to control the network for automatic operation control and calibration.
An advantage of the method according to the invention is, in one embodiment, to perform the detection of the color (the measurement) without touching the medium (product) whose color is to be tested (plaster or paint), with distances between product and colorimeter up to color without falsification to 0.5 meters are possible.
In one embodiment, the invention also allows to carry out the process in areas of high air pollution and in explosive areas. 3 «· 44444444 ♦ 4 4 4 4 4 4 4 4 ♦ For the 4 4 4 4 4 4 4 4 4 44 4 4 444444
Since the color measurement and testing is done without contact, there are no problems with the fouling of test equipment and the like.
In one embodiment it can be provided that optical and / or acoustic warning signals are emitted when color tolerances - ie deviations from the predetermined color - have been exceeded.
The invention makes it possible to produce a complete documentation of the color quality of the products for later testing. The integrity and objectivity of the measurements is ensured by operational standards.
An advantage of the invention is also that it allows the testing of each batch of a batch, so that also undesirable " outliers " recorded and removed from the production cycle.
In a preferred embodiment, the detection and testing of the color of the product using a colorimeter works, for example, according to the following operation:
Spectrophotometers split the spectrum of visible light (wavelength 380-750 nm) into a number of narrow bands or channels (typically 20 to 40 bands of about 20 to 10 nm in width) and provide a digitized intensity value for each channel. The spectrophotometer thus measures the reflectance of the product and calculates color standard values X, Y and Z. The value for the reflectance R of the product is thereby independent of the illumination source used in the spectrophotometer by constant calibration on white and black standards. From these values a remission curve is built up for the measured color of the product. This curve represents a color " fingerprint " of the product.
For measurement, polychromatic light is decomposed by a prism or a narrow-band filter into monochromatic light. A photo element detects the quantities of light reflected by the standard and the sample of the product and evaluates their ratio. By multiplying the measured values of each band by the values of the standards, one can obtain the corresponding color values CIE-LAB and CIE XYZ.
It is advantageous that a spectrophotometer detects (measures) the remission values by illuminating the measuring surface over the entire spectrum (from infrared to ultraviolet) of the visible light. This allows the exact color location of the product's color to be defined and color deviations from one measurement point to the next to be calculated.
The spectrophotometer, e.g. a color measuring device of the type Teleflash 130 of the company X-Rite controls, for example, the product in each container on color differences within a
Batch.
This means that the first container can serve as a basis for comparison for the entire subsequent production of a batch.
If color differences occur that are outside a specified tolerance, the affected containers are (automatically) discharged.
Further details and features of the invention will become apparent from the following description of preferred embodiments of the method and the plant in which the method can be carried out, with reference to the accompanying drawings. It shows:
1 is a diagram of the essential stations of a plant for the production of plasters and / or colors with integrated online color measurement,
FIG. 2 is a plan view of an embodiment 5, for example. FIG. 9...... *. * #. «« «T ·« * · »« · ««
Fig. 3a Fig. 4 Fig. 5 Fig. 6 Fig. 7 Fig. 8a of a plant on which the inventive method can be performed, and 3b in a (split) chart the
Production process including online color measurement, in more detail the part of the system in which the on-line color measurement is performed, the result of an online color measurement, in a diagram the essential stations of a modified embodiment, a plan view of a modified embodiment of a system according to the invention and FIG. 8b shows a diagram of the production sequence of a modified embodiment.
A plant according to the invention for filling plaster and / or paints, which is designed, for example, as a fully automatic filling installation, has the following essential stations:
Empty container destacker station 1 Labeling station 2 Filling station 3 Color paste dosing station 4 Stirring stations 5
Quality control station with infeed and outfeed for
Container (optional) 6
Online color measurement 7
Offline Farbpastendosierstation 8
Lid closure machine 9
Emergency-OK station (butterfly strap) 10
Palletizing 11
Winder 12
In the empty container destacker station 1, empty containers 13 are automatically unstacked from (two) empty container magazines. If, for example, the first magazine fails due to a malfunction or is empty, containers 13 are obtained from the second magazine. It is also possible to place pre-filled (so-called "pre-dosed") containers 13. These are containers 13 pre-dosed with the product (plaster, paint, etc.) which are only labeled or dyed.
In the labeling station 2, the containers 13 are provided with labels on which the production date including time, batch number, color, product name, structure, grain, consumption, barcode, EAN code and a layout are displayed.
In the filling station 3 (" Misura Selecta "), the crude product is filled from storage tanks into containers 13. There are several, for example, nineteen, storage tanks available from which the desired product can be selected.
The color paste dosing station 4 (" Misura tinta ") consists of two identical color paste dispensers. With the help of, for example, fourteen color pastes, almost all colors can be produced. The filling of the color paste dispensers ("Misura Prima Tinter") with color paste takes place by means of storage tanks, which are constructed, for example, on a pedestal above the lines.
In four stirring stations 5, the crude product is mixed in the containers 13 with the color pastes. The utilization of the individual stirring stations 5 is carried out so that it comes to the shortest possible waiting times and thus as possible to no downtime.
The quality control in the optional quality control station 6 is carried out by the laboratory by placing a sample of the product to be tested on a sample card and comparing it with a color chart or a sample. If the colors of the product match the specifications, the remaining production of this batch can be started. If, however, color differences are detected, the contents of this package must be repolished in an offline station. The amount of dye which is added during the re-dyeing process is 7 7 ··· »» ··· * r · · · · ··· »• * * ·
• Automatically transferred to each individual container 13 in the following production. The first container 13 of a production of colored product is reintroduced after being inspected by the laboratory. To avoid confusion, the first container 13 (the first bucket) is recognized for subsequent production by means of a Barcodereaders. If an incorrect container 13 is accidentally attempted, this is detected on the basis of the wrong barcode on the container 13 and the line is stopped. An error message will be displayed and the error can be corrected.
The online colorimeter 14 for determining the color of the product (plasters and colors) provided in the on-line color measurement 7 has the following basic functions: • Online color measurement and inspection that detects color deviations directly and without interruption during production. • Controlled by the network for automatic operation control and calibration • Measurement at a distance to the product (medium) up to 0.50 m without color distortion. • Use in areas of high air pollution and explosive areas. • Non-contact operation. • Visual and audible warnings indicate when color tolerances are exceeded. • Full color quality documentation for later review. Integrity and objectivity of the measurements are ensured in particular by internationally recognized standards.
Functionality:
Spectrophotometers split the spectrum of visible light (wavelength 380-750 nm) into a number of narrow bands or channels (typically 20 to 40 bands of about 20 to 10 nm in width) and provide a digitized intensity value for each channel. The spectrophotometer thus measures the reflectance of the product and calculates color standard values X, Y and Z. The value for the reflectance R of the product is thereby independent of the illumination source used in the spectrophotometer by constant calibration on white and black standards. From these values a remission curve is built up for the measured color of the product. This curve represents a color " fingerprint " of the product.
For measurement, polychromatic light is split into monochromatic light by at least one prism or by at least one narrow-band filter. A photo element detects the quantities of light reflected by the standard and the sample of the product and evaluates their ratio. By multiplying the measured values of each band by the values of the standards, one can obtain the corresponding color values CIE-LAB and CIE XYZ.
It is advantageous that a spectrophotometer detects (measures) the remission values by illuminating the measuring surface over the entire spectrum (from infrared to ultraviolet) of the visible light. This allows the exact color location of the product's color to be defined and color deviations from one measurement point to the next to be calculated.
The colorimeter 11, e.g. Teleflash 130 of the company X-Rite, controls each container (color, structure, scratch or groove from 0 to 3mm) on color differences within a batch.
The color measurement (online color measurement 7) provided in the method according to the invention can be carried out in addition to the above-described quality control with infeed and outfeed. However, it is preferred within the scope of the invention if the online color measurement 7 is carried out without the quality control with inward and outward transfer of containers 13 containing the products to be tested.
Hereinafter, an operation of the color inspection method will be explained by way of example with reference to FIGS. 3 and 3a. The color added (in the inking station 4) according to order to be achieved products (plaster or paint) arrive after the stirring station 5 in the station 6, in which the quality control (in the invention not necessarily provided) is performed.
In the station 6 quality control a container 13 is discharged and checked the contents of the container 13 according to the order for color. This is done as described by drawing a sample of the product taken from the container 13 onto a card, drying the card and visually inspecting the color by a lab technician. If the color is determined to be correct, a barcode check is carried out and the barcode reader is used to start the production of the remaining batches of this batch in accordance with the order. The container on which the test for correct color has been carried out is returned to the production cycle in the area of batch injection.
In the on-line colorimetry station 7, the products are checked for color according to the order, without the container 13 containing the product to be tested being removed from the production cycle. In this case, color differences over three axes are shown (see Fig. 5). As a reference container, the first container 13 of a batch is used, wherein the correctness of the color of the product in the first container 13 of a batch is determined by comparison with a predetermined standard. The product in the first container 13 then serves as a reference container. If the color of the product in a following container 13 of the batch is outside a predetermined tolerance (deviation from the first container serving as "reference container"), the container 13 is removed from the production cycle non-contact spectrophotometer 14 as a measuring device to set the color tolerances so small that color differences are no longer visible to the human eye
Unless it is determined in a subsequent container 13 of a batch by the online color measurement 7 that the color matches the order color, the container 13 is closed and, as shown in Fig. 3b, further processed and completed for shipping.
However, if it is determined that a package 13 contains a product that does not match the order in color, the package 13 is removed from the production cycle and, for example, via the " not okay station " 10 {butterfly band} fed to an offline Tinting station 8 to be post-dyed there. If then the color is correct, the container 13, as previously described for the quality control 6, re-introduced into the production cycle. This is shown in Figs. 7 and 8, in which a plant and its operations of an embodiment without the optional quality control station 6 are shown.
The result of an online color measurement is shown in FIG. Fig. 5 shows in the form of a graph the result of a measurement of the color of a colored product. The color differences are shown on three axes. The L * axis shows the differences in brightness, the a * axis shows the color differences from green to red and the b * axis shows differences from blue to green. The axis L99 shows the differences in brightness. The axis a99 shows the color differences from green to red, the b99 axis shows the differences from blue to green. The axis dE shows the sum of the total deviations. The graph shown in Fig. 5 shows the result of the color measurement in a container (bucket: 001). The coordinates of the L * a * b * site are based on the physiological properties of human perception (color perception), they are only indirectly based on physical color valences (colorimetry). The main advantage is the visual equivalency: the geometrically calculable distances of two color locations in the Lab system correspond well approximated visually perceived color distances.
The first container 13, more precisely: the product in it (the color of which has been tested by hand on the basis of a standard) is used as a reference container and can not be seen on this graphic. The diagram shows an example in which the product in the container 13 " bucket: 001 " is outside the predetermined tolerance, that is, has a greater than allowed deviation from the desired color of the product, and is therefore discharged via the emergency ok station 10 {butterfly belt) from the production cycle. For all other containers 13, the deviation from the detected color to the reference container within the specified tolerance. These containers are thus found to be in order and kept in the production cycle.
With a Deckelverschlussautomaten 9, the container 13 are closed. By means of a centering the lids are fitted accurately and sealed airtight by the movement of the conveyor belt via a narrowing roller system.
The " Not-OK " Station 10 rejects defective container 13, for example, due to tolerance exceeded when filling the crude product or metering inaccuracies of the color paste from. Another reason for rejection may be the result of the color measurement from the first container to all other containers produced within a batch; because a container 13 is outside the tolerance of the first container, it is automatically transported to the "NOT OK" station.
A robot stacked in the palletizing 11, the 25 kg and 30 kg container 13 on pallets three layers high, with an intermediate pallet is inserted after the second layer. This intermediate palette makes sense for two things; no bucket break at high temperatures and transport stabilization. The robot lifts the pallets out of the pallet warehouse and places them on the correct side. The filled containers are each placed on the opposite side of their actual line.
In the winder 12, the finished pallet is filled with the filled containers to stabilize them for transport, or when it comes into the camp to protect from dirt and dust.
In summary, an embodiment of the invention can be described as follows:
The color of products, such as plasters or colors filled in containers 13, is checked in the course of the manufacture of the products, without removing the containers 13 containing the products from the production line by detecting the color of the product without contact by means of a spectrophotometer 14. The detected color of the product is compared with a given standard and containers of products whose color deviates from the standard more than the specified tolerance are removed from production and the color of the product is corrected, if necessary.

权利要求:
Claims (7)
[1]


«· ······················································································································································································································ the color of products, in particular of products used in the construction industry, such as plaster or paint, characterized in that the color of the product, which is filled into containers, is detected without removing the container from the production process.
[2]
2. The method according to claim 1, characterized in that the detection of the color takes place without touching the product.
[3]
3. The method according to claim 1 or 2, characterized in that the detection of the color of the product takes place by means of a spectrophotometer.
[4]
4. The method according to claim 3, characterized in that the detection of the color in selected regions of the visible light, in particular in a plurality of areas with 10 to 20 nanometers width, takes place.
[5]
5. The method of claim 3 or 4, characterized in that the spectrophotometer detects a reflectance of the product and determines abnormalities, wherein the value for the reflectance of the product is determined by calibrating to white and black standards.
[6]
6. The method according to any one of claims 3 to 5, characterized in that the detection of the color by the spectrophotometer in the range of several bands, which are obtained by decomposing polychromatic light by means of at least one prism or wavelength filter, takes place.
[7]
7. The method according to any one of claims 1 to 6, characterized in that the container is discharged with the product from the production process, if the determined color does not correspond to a preselected color value. Plant for carrying out the method according to one or more of claims 1 to 7, with at least one station (3) for filling products into containers (13), with at least one station (4) for adding colorants and for mixing into containers ( 13) bottled product with dyes, in particular color paste, optionally with a station (6) for quality control, with stations (9, 11) for closing and palletizing the container (13), characterized in that in front of the station (9) for closing the Container (13) is provided a station (7) for color measurement. Installation according to claim 8, characterized in that the station (7) for color measurement comprises at least one spectrophotometer (14) and a light source, wherein the spectrophotometer (14) is arranged at a distance from the surface of the product in the container (13). Installation according to claim 8 or 9, characterized in that the station (7) is provided for color measurement following a station (6) for quality control with infeed and outfeed of products to be re-inked. Installation according to claim 9 or 10, characterized in that the spectrophotometer (14) of the color measurement is directed to moving through the line container (13).

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引用文献:

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CN109663530A|2018-12-19|2019-04-23|深圳市灏天光电有限公司|The preparation method and preparation system of the fluorescent glue of LED encapsulation|

法律状态:
2017-03-15| MM01| Lapse because of not paying annual fees|Effective date: 20160714 |

优先权:

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申请号 | 申请日 | 专利标题

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ATA1037/2011A|AT510746B1|2011-07-14|2011-07-14|METHOD AND APPARATUS FOR MEASURING THE COLOR OF PRODUCTS|ATA1037/2011A| AT510746B1|2011-07-14|2011-07-14|METHOD AND APPARATUS FOR MEASURING THE COLOR OF PRODUCTS|

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EP12450036A| EP2546647A1|2011-07-14|2012-07-13|Procédé et installation de mesure des couleurs de produits|