WO2014170088A1 - Device and method for coating profiled sections - Google Patents

Abstract

The invention relates to a device for coating profiled sections (10), comprising a conveyor device (16) for the profiled sections, a measuring device (24) for measuring the conveyor speed of the profiled sections, and an application device (20) for applying a coating material, pulled as a continuous web (12) from a roller (14), to said profiled sections, and characterised by the presence of a rotational speed measurement device (28) for measuring the rotational speed of said roller (14), and an evaluation device (26) for calculating the length of the web (12) available on the roller (14) based on the rotational speed and the conveyor speed that have been measured.

Description

 DEVICE AND METHOD FOR COATING PROFILES

The invention relates to a device for coating profiles, comprising a transport device for the profiles, a measuring device for measuring the transport speed of the profiles, and a pressing line for bonding coating material, which is drawn off from a roll as an endless web.

Such devices serve, for example, profiles such as building strips, furniture strips or the like with a decorative material such. to coat a veneer. With the aid of the transport device, the profiles are transported in their longitudinal direction in close succession through the device, while the coating material is withdrawn from the roll, glued using a slot die and then applied with pressure rollers on the surface of the profiles. For uninterrupted operation of the device, it is important that the consumable, especially the coating material, be provided in sufficient quantity.

The object of the invention is to improve the material management in such a device.

 20

 This object is achieved by a rotational speed measuring device for measuring the rotational speed of the roller, and an evaluation device for calculating the length of the web present on the roll on the basis of the measured rotational speed and the transport speed.

 OK

Since the web drawn from the roll is adhered to the passing profiles, the speed at which the web is pulled off the roll is consistent with the transport speed of the profiles. If you divide this transport speed by the speed of the role, you will get the current extent of the web wrap on the roll. Division by 2π then gives the current radius. From this, it is possible in turn to calculate, based on the known thickness of the web material and the known radius of the winding core of the roll, the length of the total web of the coating material still present on the roll. On the basis of this information, the staff can check at any time whether the stock of coating material will suffice for the profile lengths to be machined or how many profiles of known length can still be coated with the existing material. In this way, provision can be made in good time for replenishment of coating material or it can already be recognized before the beginning of a new order that a necessary roll change must occur during production.

Advantageous embodiments and further developments of the invention are specified in the subclaims. According to one embodiment of the invention, the thickness of the material web can be measured automatically. To do this, after a few revolutions of the roll, compare the new radius with the radius measured first and divide this difference by the number of revolutions. In a broader sense, the invention also proposes a method for automatic length determination of web material on multi-layered material wraps, which can also be used in other applications and for other materials. In the following an embodiment will be explained in more detail with reference to the drawing. Show it:

1 shows a sketch of a device according to the invention for coating profiles.

FIG. 2 shows a roll with a remaining stock of coating material; FIG. and a picture mask on a display screen of the device

The apparatus shown in Fig. 1 is used for coating of profiles 10 with a coating material, which is withdrawn as an endless web 12 from a roll 14. On a transport device 16, which is formed by a series of transport rollers 18, the profiles 10 are transported in close succession in the direction of the arrow A through the device. In this case, the web 12 is applied by means of pressure rollers 20, of which only one is shown here, on the profiles 10 after it has been previously glued using a slot 22 nozzle.

The transport speed of the profiles 10 is measured by means of a measuring device 24 and transmitted to an electronic evaluation device 26. A speed measuring device 28 measures the speed of the roller 14 from which the web 12 is withdrawn.

The roller 14 has a winding core 30 on which a web winding 32 formed by a plurality of layers of the web 12 is located. The radius r of this web winding decreases as the web 12 is pulled off the roll. The speed with which the web 12 is withdrawn from the roll coincides with the transport speed of the profiles 10 measured by the measuring device 24. If one divides this transport speed v by the rotational speed ω of the roller measured by the rotational speed measuring device 28, the circumference U = 2πτ of the web is obtained. If r _{0 is} the radius of the winding core 30 and d is the thickness of a single layer of the web 12, then the number n of web layers forming the web winding 32 can be calculated as follows: n = (r - tu) / d = ((v / 2πω) - r ₀ ) / d

The thickness d can in turn be measured in the following way: the measurement of the circumference U or of the radius r is repeated after a certain number k of revolutions (counted by means of the speed measuring device 28), so that two values ri and r are obtained _k for the radius gets. The following then applies: d = -r _k ) / k.

For the length L of the total web supply still present on the roll 14: L = Σ ^η _{ί =} ι 2π (r ₀ + id) ~ 2π n (r ₀ + nd / 2)

This length L is calculated by the evaluation device 26 and displayed on a display screen 34 on a control panel of the device, so that the operator is always informed about the remaining supply of coating material and can compare this with the still to be processed total length of profiles 10. Alternatively, the device may also have an acoustic signal generator, via which a warning signal is output when the length L decreases below an adjustable minimum value.

In the example shown, a label printer 36 is also connected to the evaluation device 26. If a batch of profiles has been processed and the roll 14 is to be changed so that a new batch can be coated with another coating material, then the length L of the web material still present on the old roll 14 with the aid of the label printer 36 printed on a self-adhesive label 38, which is then on the web winding 32 of the abgenomme- NEN roller 14 is glued, as shown in Fig. 2. The label 38 then serves at the same time to fix the cut end of the web 12 on the winding. The length L may also be suitably encoded, in the example shown in the form of a bar code 40 which may be electronically read by a bar code laser (not shown) so that the data can be immediately input to and processed in a material management system. If the coating material still present on the roll 14 is required again for a new application, then it can be checked immediately whether the remaining stock on the roll is sufficient for the job to be processed.

Depending on the type of profiles 10 to be processed, rollers 14 with web material of different thickness and width can be mounted in the device. The thickness of the material used in each case can then be measured in the manner described above or, for example, entered via a keyboard into an input mask on the display screen 34 and stored in the evaluation device 26. Likewise, the width of the web 12 and possibly the type of material can be entered and stored.

In the example shown in Fig. 1, however, it is possible to automatically measure the width of the web. The slot die 22, which serves to line the web 12, has a slot which extends across the web and over which the adhesive is dispensed onto the web. By means of diaphragms at both ends, the length of the slot is adjusted to the width of the web material. In the case of the device shown here, the slot nozzle 32 has displacement measuring devices with which the positions of the diaphragms can be electronically measured and transmitted to the evaluation device 26. In this way, as soon as the slot nozzle is set to the correct width, the information about the width of the web is also available in the evaluation device 26. From the thus measured width of the web and the length L, the total area of the coating material still present on the roll 14 can then be calculated. In addition, if the price of the coating material per unit area is known, can be also calculate the value of the material stock, so that the material value can be called up immediately during an inventory. All of this information can be displayed on the display screen 34 and optionally also printed on the label 38 or printed uncoded.

By way of example, FIG. 3 shows a screen mask on the display screen 34, with information about the type of material and the thickness of the web 12, the length L (stock), the width, the area and the value of the remaining stock.

Claims

1. Apparatus for coating profiles (10), with a transport device (16) for the profiles, a measuring device (24) for measuring the transport speed of the profiles, and an application device (20) for applying an endless web (12) coating material drawn from a roll (14) onto the profiles, characterized by a rotational speed measuring device (28) for measuring the rotational speed of the roller (14), and an evaluation device (26) for calculating the length of the web (12) present on the roller (12) ) based on the measured speed and the transport speed. 2. Device according to claim 1, wherein the evaluation device (26) is adapted to calculate the thickness (d) of the web material based on the decrease of the radius (r) of the roll during a number of revolutions of this roll. 3. Device according to claim 1 or, with a display screen (34) for displaying the evaluation device (26) calculated length. 4. Device according to one of the preceding claims, with a Etikettendruc- ker (36) for printing the calculated length on a label (38). 5. Device according to one of the preceding claims, with a for lining the web (12) serving slot (22) whose effective width is adjustable by means of at least one adjustable aperture and the position measuring means for measuring the position of the diaphragm and for transmitting position data to the evaluation device (26), in the basis of which data the width and thus the area of the roll (14) existing stock of material can be calculated. 6. A method for measuring the residual supply of coating material in a device for coating profiles (10) with a transport device (16) for the profiles, a measuring device (24) for measuring the transport speed of the profiles, and an applicator (20) for applying a as an endless web (12) of a roll (14) peeled coating material on the profiles, characterized by the following steps:  Measuring the speed of the roller (14),  Measuring the transport speed of the profiles, and  Calculating the length of the web (12) present on the roll (14) on the basis of the measured speed and the transport speed.