EP3268143A1

EP3268143A1 - Apparatus for inspecting and sampling a wound coil of metal strip

Info

Publication number: EP3268143A1
Application number: EP15817783.2A
Authority: EP
Inventors: Lukas PICHLER; Alois Seilinger
Original assignee: Primetals Technologies Austria GmbH
Current assignee: Primetals Technologies Austria GmbH
Priority date: 2015-03-12
Filing date: 2015-12-14
Publication date: 2018-01-17
Also published as: WO2016142016A1; EP3067127A1; US20180021828A1; CN107405661B; EP3067127B1; CN107405661A

Abstract

The invention relates to an apparatus (1) for inspecting and sampling a wound coil (2) of metal strip (3) having a supporting arrangement for the wound coil (2). The supporting arrangement has at least two base rollers (4) arranged adjacent to one another which has roller axes (5) extending parallel to one another and onto which the coil (2) is placed for support. The apparatus (1) has an inspection device (6) which is arranged alongside the supporting arrangement. The inspection device (6) is designed to perform an inspection of the metal strip (3) at least when the metal strip (3) is a thin metal strip. The apparatus (1) has, in addition to the inspection device (6), a sampling device (10) which is arranged opposite the inspection device (6) with respect to the supporting arrangement, such that the supporting arrangement is located between the inspection device (6) and the sampling device (10). The sampling device (10) has a separating device (12) which is designed to take a sample of the metal strip (3) when the metal strip (3) is a thick metal strip (3).

Description

Description / Description

Device for inspecting and sampling a coiled bundle of metal strip

The present invention is based on a device for inspecting and sampling a coiled bundle of metal strip,

- wherein the device comprises a storage device for a coiled collar,

- wherein the bearing means comprises at least two juxtaposed floor rolls, which have mutually parallel roller axes and on which the collar is placed for storage,

- wherein the device comprises an inspection device, which is arranged laterally of the bearing device,

- Wherein the inspection ^{device is} adapted to ^{¬ at} least when the metal strip is a thin metal ^strip to ^perform an inspection of the metal strip.

Such a device is known for example from DE 44 11 905 AI. In this device, a sample is taken.

From AT 501 782 Bl a device for a coiled waistband made of metal strip is known,

- wherein the device comprises a storage device for a coiled collar,

- wherein the device comprises a sampling device, which is arranged laterally of the storage device,

- Wherein the sampling device is designed to un ^¬ depending on whether the metal strip is a thin or a thick metal strip to take a sample of the metal strip. Further Devices Inspection and / or sampling of a coil-wound collar made of metal strip are known, for example, from WO 2012/100 036 A1 and from WO 2012/126 631 A1. When rolling steel strip, the trend is that in the same rolling mill in the product mix both conventional grades and thick tube grades (thickness up to about 25 mm) and high-strength grades are to be produced. For conventional grades in the range of thin strips (for example, with a thickness of up to 6 mm), an inspection of the respective metal strip is sometimes required. To carry out the inspection, part of the already reeled metal strip is unwound on a roller table. There is a visual inspection and in some cases a sampling. For sampling usually a hydraulically driven scissors is used.

For pipe grades and often also for high-strength grades, it is necessary to take a sample after the reeling of the metal strip produced and to check and test them. However, the scissors for separating a sample of a thin metal strip is not suitable for this purpose. It is therefore necessary to provide a suitable sampling device for thick metal bands.

The object of the present invention is to further develop a device of the type mentioned above in such a way that both thin metal strips can be inspected in a simple and efficient manner by means of the device, and samples can be taken from thick metal strips.

The object is achieved by a device having the features of claim 1. Advantageous embodiments of the device according to the invention are the subject of the dependent claims 2 to 9. According to the invention a device of the type mentioned is configured by

the device has, in addition to the inspection device, a sampling device which, relative to the storage device, is arranged opposite the inspection device such that the storage device is located between the inspection device and the sampling device,

- That the sampling device comprises a separating device which is adapted, at least when the metal strip is a thick metal strip to take a sample of Me ^¬ tallbandes.

As a thin metal band is usually a metal strip with a thickness of about 0.8 mm to approx. 6 mm to look at. As a thick metal band is usually a metal band with a thickness of about 12 mm to about 25 mm to look at. Depending on the design of the inspection device and the sampling device, a metal strip with a thickness between 6 mm and 12 mm can be classified as a thin metal strip, as a thick metal strip or as required.

In general, the inspection device for removing a sample of a thin metal strip and / or for separating a portion of the metal strip to be inspected on a pair of scissors. The scissors can be driven in particular hydraulically. In individual cases, however, a design without scissors is possible.

The separator may be formed for example as a plasma cutting machine ^¬ or as a rotating blade.

Preferably, the sampling device has a threading aid for feeding a thick metal strip to the separating device. By Einfädelhilfe the thick metal strip can be reliably fed to the separator. The threading aid can be designed, in particular, as a roll which can be set against the thick metal strip. The roller may be driven or not driven as needed.

The device preferably has a hold-down roller which can be attached to the waistband from above. Due to the hold-down role of the federal government can be particularly reliably held in the storage facility. Furthermore, an unwanted popping of the federal government can be prevented. Furthermore, by means of the hold-down roller a sufficiently great pressure on the federal government be exercised, so that in particular for unwinding a thick metal band, a sufficiently large friction and adhesion of the federal guaranteed on the floor rolls.

The hold down roller may be driven or not driven as needed. By a driven hold-down roller in particular a rotation and rotation of the federal can be facilitated and supported.

Preferably, at least one of the bottom rollers is driven. This makes turning and rotating the collar particularly easy to accomplish.

Preferably, the apparatus comprises a single Bindevor ^¬ direction, both made of a thick metal strip existing collar and a bondable by means of which from a thin metal strip existing hem. This can be saved over the prior art, a binding device. The binding device may alternatively form a structural unit with the storage device, the inspection device and the sampling device. In this case, the binding takes place while he is on the floor rolls. Alternatively, it can be a separate unit. In this case, the federal government is lifted off the bottom rollers, transported to the binding device and tied there.

The above-described characteristics, features and advantages of this invention and the manner in which it achieves will become clearer and more clearly understood in connection with the following description of the embodiments, which are explained in more detail in conjunction with the drawings. This shows in a schematic representation:

1 shows a device for inspecting and sampling a coiled federal government of metal band.

According to FIG. 1, collars 2 made of metal strip 3 are to be inspected and sampled in a device, generally designated by the reference numeral 1. Shown in FIG 1 in solid lines, a collar 2 with a maximum diameter and with dotted lines a covenant 2 with a minimum diameter. The metal strip 3 may in particular be a steel strip. The metal band 3 has a band thickness d, which varies from collar 2 to collar 2. The minimum strip thickness d is approx. 1 mm. In individual cases, the strip thickness d may also be slightly below 1 mm. The maximum strip thickness d is approx. 25 mm. In some cases, the strip thickness d is even slightly above 25 mm.

In principle, the strip thickness d can be anywhere between 1 mm and 25 mm. As a rule, however, the strip thickness d is either below 6 mm or above 12 mm. A metal strip 3 with a strip thickness d below 6 mm is referred to below as a thin metal strip, a metal strip 3 with a strip thickness d above 12 mm as a thick metal strip. Depending on the design of the device 1, a metal strip 3 with a strip thickness d between 6 mm and 12 mm can alternatively be classified as a thin or a thick metal strip. It is possible that the classification is fixed by the further embodiment of the device 1. Alternatively, it is possible that the classification of the metal strip 3 is made as a thin or thick metal strip in an individual case. This will become apparent from the following explanations.

The respective collar 2 is fed to the device 1 by means of a transport device (not shown). The trans- Porteinrichtung can be formed for example as - known per se federal transport car. It can also be designed differently. The respective collar 2 is sold on a storage ^{¬ device} for the coiled collar 2. The storage device has according to FIG 1 at least two - usually exactly two - bottom rollers 4. The bottom rollers 4 are arranged side by side. They have roller axes 5, which run parallel to ^¬ each other. The respective collar 2 is placed on the floor rollers 4 for storage. As a rule, at least one of the bottom rollers 5 is driven. This is indicated in FIG 1 by double arrows at the bottom rollers 4.

The device 1 has an inspection device 6. The inspection device 6 is arranged laterally of the bearing device. The inspection device 6 is designed, at least when the metal strip 3 is a thin metal strip, to carry out an inspection of the metal strip 3. For this purpose, two alternative designs are possible. On the one hand, it is possible for the inspection device 6 to have a holding element and a pair of scissors 8. By means of the Hal ^¬ teelements one end of the metal strip 3 is taken when unwinding the metal strip 3. After unwinding a few meters, the unwound portion of the metal strip 3 is separated by means of the scissors 8. The holding element is raised, so that the abge ^¬ coiled portion hangs vertically. In this condition, both sides of the coiled portion can be optically inspected. The inspection as such can alternatively be automated by means of a camera or directly by an operator on site. The coiled section is scrapped after inspection.

On the other hand, it is possible that the inspection device 6 has a table or a roller table, on which the unwound portion of the metal strip 3 is conveyed. In this case, in the uncoiled state, only the top of the section can be inspected. The underside of the section, however, is the outside of the covenant 2. The underside of the Section is therefore inspected immediately during unwinding, in this case it is possible, but not mandatory, that the inspection device 6 has a pair of scissors 8. If the scissors 8 is present, it serves to remove a sample of a thin metal band 3.

The inspection device 6 is thus designed to perform an inspection and possibly also sampling of the metal strip 3, when the metal strip 3 has a material thickness of, for example, up to 6 mm. It is possible that the inspection device 6 is only able to carry out a sampling of the metal strip 3 if the metal strip 3 has a strip thickness d of at most 6 mm. Alternatively, it is possible that the inspection device 6 can also perform an inspection and possibly also sampling of the metal strip 3, if the metal strip 3 has a strip thickness d above 6 mm, for example up to 10 mm or up to 12 mm.

To unwinding the metal strip 3 good, the In ^¬ inspection device 6 further comprises a separator. 7 The separator 7 can be adjusted to the respective collar 2, so that it can engage in the gap between the outermost turn of the coiled collar 2 and the next inner turn and thereby lift the outermost turn of the coiled collar 2. After inserting the separator 7 into the gap, the metal strip 3 is unwound a bit. The unwound portion of the metal strip 3 is, as already mentioned, at least visually inspected. The inspection device 6 has for this purpose the mentioned test table (not shown).

If the scissors 8 is present, the scissors 8 is actuated by means of a scissors drive 9. In this case, a sample of a thin metal strip can be removed by means of the scissors 8. The scissor drive 9 can be designed to be electric or, as indicated in FIG. 1 by the illustration of the scissors drive 9 as a hydraulic cylinder, be designed hydraulically. The scissors 8 and the scissor drive 9 can in particular be dimensioned in this way and be designed so that a metal strip 3 can be severed by means of the scissors 8 if and only if the metal strip 3 has a strip thickness d which is not greater than a maximum strip thickness for a thin metal strip. The maximum strip thickness for a thin metal strip can, as already mentioned, at ^¬ play, at 6 mm or even higher are, for example 8 mm, 10 mm or 12 mm.

In addition to the inspection device 6, the device 1 according to the illustration in FIG. 1 has a sampling device 10. The sampling device 10 is designed, at least when the metal strip 3 is a thick metal strip, to take a sample of the metal strip 3. The Beprobungsvor ^¬ device 10 is thus adapted to perform a sampling of the metal strip 3, when the metal strip 3 has a Ma ^¬ terialstärke example of at least 12 mm. It is possible that the sampling device 10 is only able to carry out a sampling of the metal strip 3 if the metal strip 3 has a strip thickness d of at least 12 mm. Alternatively, it is possible that the sampling device 10 can also perform a sampling of the metal strip 3, even if the metal strip 3 has a strip thickness d below 12 mm, for example, at least 10 mm or at least 8 mm.

It is possible that a metal strip 3, if its strip thickness d is within a certain value range, can neither be inspected in the inspection device 6 nor sampled in the sampling device 10. This may be the case, for example, if a metal strip 3 can only be inspected by means of the inspection device 6 if the metal strip 3 has a strip thickness d of not more than 6 mm or not more than 8 mm, and a metal strip 3 can only be sampled by means of the sampling device 10 can, if the metal strip 3 has a strip thickness d of at least 12 mm or at least 10 mm. Other values are possible.

Alternatively, it is possible that a metal strip 3 - depending on its strip thickness d - always either in the inspection device 6 or alternatively sampled in the sampling device 10. This is the case when, by means of the inspection device 6, a metal strip 3 can only be inspected if the metal strip 3 has a strip thickness d up to a limit thickness, and by means of the sampling device 10 a metal strip 3 can only be sampled if the metal strip 3 has a band thickness d of at least the limit thickness. The limit thickness can be as required, for example, 6 mm, 8 mm, 10 mm or 12 mm. Again, other values are possible.

Again alternatively, it is possible that a metal strip 3 - depending on the strip thickness d - can always be inspected in the inspection device 6 or sampled in the sampling device 10, in some cases, however, is selected whether the metal strip 3 in the inspection device 6 inspected or in the Beprobungsvorrichtung 10 is sampled. This may for example be the case if a metal strip 3 can be inspected by the inspection device 6, when the metal strip 3 has a band thickness d of at most 10 mm, and a metal strip 3 can be sampled by means of the loading ^¬ probungsvorrichtung 10 when the metal strip 3 has a strip thickness d of at least 8 mm. Other values are possible.

The sampling device 10 is - as the Inspekti ^¬ onsvorrichtung 6 - arranged laterally of the bearing device. The sampling device 10 is, however, relative to the bearing device, arranged opposite the inspection device 6. The bearing device (in particular the bottom rollers 4) is thus located between the inspection device 6 and the sampling device 10.

In particular, a sample of the metal strip 3 is always to be removed by means of the sampling device 10. In order to be able to remove such a sample, the sampling device 10, as indicated in FIG. 1 by a double arrow, can be approached as a whole against the collar 2. Furthermore, the sampling device 10 also has a separator 11. The separator 11 is - analogous to the separator 7 - in the gap between the outermost Winding the coiled collar 2 and the next inner turn introduced and can thereby lift the outermost turn from the coiled collar 2. After inserting the separator 7 into the gap, the collar 2 is unwound a bit. The unwound portion of the collar 2 is then separated by means of a separator 12 of the sampling device 10 from the rest of the metal strip 3 and thereby removed a corresponding sample. The separating device 12 may be formed in particular as shown in FIG 1 as a plasma cutting machine. Alternatively, the separator 12 may be formed, for example, as a rotating blade.

Often, the reeling of the metal strip 3, while the metal strip 3 is still hot. In this case, the temporal course of the cooling of the metal strip 3 inside the ge ^¬ haspelten Federal 2 is different than in the outermost turn of the Federal 2. In such a case, the outermost winding of the Federal 2 often other material properties than the other turns of the Federal 2. It may therefore be necessary to first separate a piece of scrap or several pieces of scrap during sampling before a representative sample can be taken.

In many cases, the sample taken is a strip which extends over the entire width of the metal strip 3. However, this is not necessary. By means of the separating device 12 can - assuming a corresponding design of the separator 12 - also a differently shaped sample are removed.

Regardless of the remaining embodiment of the sampling device 10, the sampling device 10 has a threading aid 13. The threading aid 13 is used to feed a thick metal strip 3 to the separating device 12. The threading aid 13 can be designed in particular as shown in FIG. 1 as a roll, which can be set against the metal strip 3. The roller 13 is preferably not driven. Alternatively, the roller 13 may be driven. Preferably, the device 1 further comprises a hold-down roller 14. The hold-down roller 14 can be attached to the collar 2 from above. The hold-down roller 14 serves to secure a arranged on the bottom rollers 4 Federal 2. The hold-down roller 14 is rotatable. It can, as indicated in FIG 1 by a double arrow, be driven. Alternatively, the hold-down roller 13 may be formed as a non-driven roller.

The device 1 further comprises a - not shown in Figure 1 - single binding device. By means of the Bin ^¬ devorrichtung a collar 2 is bindable in a conventional manner. The binding of the respective collar 2 takes place after the inspection in the inspection device 6 or after the trial in the sampling device 10. The collar 2 is bindable in the binding device regardless of whether the metal strip 3, of which the collar 2 is a thick metal band

or a thin metal band is.

In summary, the present invention thus relates to the following facts:

An apparatus 1 for inspecting and sampling a coiled bundle 2 of metal strip 3 has a bearing device for the coiled bundle 2. The bearing device has at least two side rollers 4 arranged side by side, which have mutually parallel roller axes 5 and on which the collar 2 is placed for storage. The device 1 has an inspection device 6, which is arranged laterally of the bearing device. The inspection device 6 is to ^¬ forms, at least when the metal strip 3 is a thin Me ^¬ tallband to make an inspection of the metal strip 3. The device 1 has, in addition to the inspection device 6, a sampling device 10 which, relative to the storage device, is arranged opposite the inspection device 6, so that the storage device is located between the inspection device 6 and the sampling device 10. The Sampling device 10 has a separating device 12, which is designed to take a sample of the metal strip 3 at least when the metal strip 3 is a thick metal strip.

The present invention has many advantages. In particular, both bundles 2 of thin metal strip 3 can be inspected and bundles 2 of thick metal strip 3 can be sampled in one and the same device 1. Furthermore, regardless of its further embodiment, only a single transport device for the bundles 2 is required. Also, the binding device must be present only once. As a result, the investment costs are reduced considerably.

Although the invention has been further illustrated and described in detail by the preferred embodiment, the invention is not limited by the disclosed examples, and other variations can be derived therefrom by those skilled in the art without departing from the scope of the invention.

LIST OF REFERENCE NUMBERS

1 device

2 bundles

3 metal band

4 floor rolls

5 roller axles

6 inspection device

7 separator

8 scissors

9 scissors drive

10 sampling device

11 separator

12 separating device

13 threading aid

14 hold-down roll d strip thickness

Claims

Claims / Patent Claims

1. Device for inspecting and sampling a coiled bundle (2) made of metal strip (3),

- wherein the device has a bearing device for the coiled collar (2),

- wherein the bearing means comprises at least two juxtaposed floor rolls (4) which have mutually parallel roller axes (5) and on which the collar (2) is placed for storage,

- wherein the device comprises an inspection device (6), which is arranged laterally of the bearing device,

- wherein the inspection device (6) is adapted, at least when the metal strip (3) is a thin metal strip, to carry out an inspection of the metal strip (3), d a d e r c h e c e n e c e n e,

in that the device has, in addition to the inspection device (6), a sampling device (10) which, relative to the bearing device, is arranged opposite the inspection device (6), so that the bearing device lies between the

Inspection device (6) and the sampling device (10) is located,

- That the sampling device (10) is adapted, at least when the metal strip (3) is a thick metal strip to take a sample of the metal strip (3).

2. Apparatus according to claim 1,

characterized ,

in that the inspection device (6) has a pair of scissors (8) for taking a sample of a thin metal strip (3) and / or for separating a section of the thin metal strip (3) to be inspected.

3. Apparatus according to claim 1 or 2,

characterized ,

that the separating device (12) is designed as a plasma cutting machine as a rotating cutting disc.

4. Apparatus according to claim 1, 2 or 3,

characterized ,

in that the sampling device (10) has a threading aid (13) for feeding a thick metal strip (3) to the separating device (12).

5. Apparatus according to claim 4,

characterized ,

in that the threading aid (13) is designed as a roll that can be set against the thick metal strip (3).

6. Device according to one of the above claims,

characterized ,

the device has a holding-down roller (14) which can be attached to the collar (2) from above.

7. Apparatus according to claim 6,

characterized ,

that the hold-down roller (14) is driven or not driven.

8. Device according to one of the above claims,

characterized ,

that at least one of the bottom rollers (4) is driven.

9. Device according to one of the above claims,

characterized ,

in that the device has a single binding device, by means of which both a collar (2) consisting of a thick metal strip (3) and a collar (2) consisting of a thin metal strip (3) can be tied.