WO2008131929A1 - Method for the operation of a shaping device - Google Patents

Abstract

Disclosed is a method for operating a shaping device (1) which allows a metallic material (4) to be shaped into a metal bar (2) and comprises at least one first processing block (3). A measuring head (6) of a measuring instrument is provided at the end at which the shaped metal bar (2) is discharged from the processing block (3) in order to determine the speed at which the metal bar is conveyed. In said method, the speed at which the metal bar (2) is conveyed and which is determined using the measuring instrument, or a difference in speed between the conveying speed determined by the measuring instrument (7) and the initial speed at which the material (3) is conveyed that is to be shaped into the metal bar (2) and which is determined by another measuring instrument, is compared with a desired value, and a predefined instruction to act in order to prevent a plug from forming or protect the plant in case a plug has formed is followed when the conveying speed or the difference in speed deviates from the desired value by a predefined measure.

Description

 "Method of Operating a Forming Machine"

The invention relates to a method for operating a shaping device with which a metal material is formed into a metal rod and which has at least one first processing block, wherein a measuring head of a measuring device for determining the transport speed of the measuring device is located on the side at which the shaped metal rod emerges from the processing block Metal bar is provided and takes the priority of the German patent application 10 2007 019 856.8 to complete.

For producing metal rods usually rolling plants are used with compact blocks. A processing block is thus often formed by a rolling stand. This designed as a rolling mill first processing block can another

Follow rolling stand as second processing block.

In such shaping devices, the problem is known that so-called "plug" can arise in a processing block or between a first processing block and a second processing block. In particular, such a plug is produced when the material to be formed deviates from the continuous line along which it is normally processed and, for example, does not enter the second processing block correctly or does not pass through the second processing block correctly. With such a plug, a material ball can form between the two processing blocks.

The tendency for such disturbances increases according to practical experience with the square of the rolling speed. With decreasing distance between the first processing block and the second processing block, the effort increases to eliminate a connector. It is also becoming increasingly smaller

Distance between the machining blocks more difficult to detect a connector.

From practice it is known to provide between two rolling stands a string (a so-called "Fishline"), which is connected to a switch. The string is arranged to be severed by material breaking away from the solid line thereby causing a signal. A disadvantage of this method is the considerable effort in setting up the system. Furthermore, the Fishline system can often not be installed because of lack of space. Against this background, the invention has for its object to propose a method for operating a shaping device, which allows the detection of so-called "plugs".

This object is solved by the subject matter of claim 1. Advantageous embodiments are specified in the subclaims.

The invention is based on the idea to monitor the occurrence of a "plug" on the observation of the transport speed at the outlet of a processing block, or on the basis of the speed difference between the

Transport speed at the outlet of the processing block and the input transport speed results in the processing block. Thus, the invention provides that it is assumed that a plug, if the transport speed, or the speed difference over a predetermined amount deviates from a desired value. With the choice of this deviation measure, it can be determined based on empirical values which larger deviations are actually assigned to a "plug", while smaller deviations from the desired value are assigned to the normal fluctuations in the shaping process.

The metal rod forming apparatus has at least a first processing block and may include a second processing block. In the preferred embodiment with two processing blocks, the first processing block and the second processing block may be configured and arranged to each other such that the metal material to be formed into the metal rod is transported substantially along a continuous line through the first and second processing blocks during the forming process. In the molding apparatus, a measuring head of a measuring device for detecting the transport speed of the metal strip is provided on the side where the shaped metal rod emerges from the machining block.

In the present description of the invention, a "metal rod" is understood to mean both a solid rod and a tube. Namely, the invention can be used both in the field of rod production and in the field of pipe production.

"Transport speed" is the speed with which the

Metal rod moves in the direction provided for processing by the processing block direction. This is usually the speed at which the metal rod moves in the direction of a continuous line passing through the processing block. The shaping device according to the invention can have more than just the first and the second processing block. For example, a shaping device 10 to 20 according to the invention may have a processing block designed as a rolling stand.

In a preferred embodiment, both the first processing block and the second processing block are a rolling stand for rolling a metal bar profile, ie a bar or pipe profile. It has been found that such rolling mills (forming devices) with multiple stands are prone to "plugs". Since these rolling plants are increasingly operated at higher rolling speeds, there is a particular need for a possibility for rapid detection of a plug.

The basic problem of the formation of plugs occurs in particular in shaping devices in which the first processing block and the second processing block are arranged close to one another. Therefore, according to a preferred embodiment, the invention finds particular application to a shaping device in which the distance between the last point, on which the material to be formed in the metal rod is to be shaped in the first processing block, and the first point, in which in the second Machining block shaping is applied to the material to be formed in the metal rod, less than about 1 meter.

The inventively provided at the outlet of the processing block measuring device for determining the transport speed of the metal rod can be designed so that they can determine the transport speed with a single measuring head, for example with a working on the basis of optical detection methods measuring head, for example, based on observation of the surface movement Can determine transport speed. In a preferred embodiment of the method according to the invention, a measuring device is used whose measuring head can measure the transport speed of the metal rod at a point between the ends of the metal rod and does not detect the beginning or the end of the metal rod for the measurement of the transport speed. Most preferably, the probe is non-contact, e.g. a laser.

In the method according to the invention, the transport speed at the outlet of the processing block is measured. In particular, a location outside the stand of the roll stand is understood as a "discharge of the processing block" in a processing block configured as a rolling stand. But it may also be appropriate, the transport speed at another location in the wake of the nip

(the location of the smallest distance of the roll surfaces to each other) to measure. examples - A -

For example, it may be appropriate to determine the transport speed as close as possible after the nip in order to determine whether the metal rod produced in the nip leaves the nip at the intended speed. As a "run-out of the processing block", therefore, any place downstream of the roll gap is understood in the case of a rolling mill-shaped processing block and only particularly preferably a place outside the stand of the roll stand.

In a preferred embodiment of the invention, a measuring head of a further measuring device for determining the input transport speed of the material to be formed is provided before the first processing block. According to the invention, the occurrence of a plug can also be detected from a speed difference between the inlet transport speed of the material to be molded and the transport speed of the metal rod at the outlet of the second processing block.

The inventive method for operating the shaping device according to the invention provides that the determined by the measuring device transport speed of the metal rod or a speed difference between the determined by the measuring device transport speed and the determined by a further measuring device input transport speed of the material to be formed in the metal rod with a target value is compared and a predetermined action instruction is performed when the transport speed, or the speed difference over a predetermined amount deviates from the desired value. The predetermined procedure can be, for example, stopping at least one drive of the shaping device, for example a drive of a roll of a rolling stand. The predefined instruction can, for example, also be the increase of the tension on the metal rod and / or the metal material. By increasing the train often the emergence of a plug can be avoided. The previously defined instruction can also be, for example, reducing the entry speed into the processing block.

According to a preferred embodiment, the execution of the specified instruction can be implemented automatically, that is, for example, by a controller or a controller. Alternatively, it is conceivable that in the context of the method according to the invention an alarm, for example an optical and / or acoustic alarm, is generated and the previously defined instruction is then carried out by the operating personnel.

In a preferred embodiment, the desired value can also be adapted during the shaping process. For example, when approaching the molding bäufungsvorrichtung another setpoint be decisive, as during the subsequent startup processing, which is usually driven at higher processing speeds. The desired value can be adjusted manually or based on information taken from a control or regulation of the shaping device and on the basis of which the desired value is automatically adjusted.

The invention will be explained in more detail with reference to a drawing illustrating only one embodiment of the invention. The single FIGURE shows the shaping device according to the invention for a metal rod with a roll stand in a schematic side view.

1 shows a shaping device 1 for a metal rod 2, which has a first, designed as a rolling mill processing block 3. The first processing block is designed in such a way that the material 4 to be formed into the metal rod 2 is transported through the processing block 3 substantially along a continuous line 5 during the shaping process. At the outlet of the processing block 3, a measuring head 6 of a device for determining the transport speed of the metal rod 2 is provided. Before the processing block 3, a measuring head 7 of a further measuring device for determining the input transport speed of the material to be formed is provided.

The measurement result of the measuring device for determining the transport speed of the metal rod and the measurement result of the measuring device for determining the input transport speed of the material to be molded are fed to an evaluation unit 8.

In this evaluation unit 8, the speed difference between the transport speed determined by the measuring device and the input transport speed determined by the further measuring device is determined. This speed difference is compared in the evaluation unit 8 with a setpoint stored there. In the evaluation unit 8, it is further determined whether the amount by which the speed difference deviates from the desired value exceeds a level likewise stored in the evaluation unit 8. If such an excess is detected, the evaluation unit 8 generates a command to stop the drives of the rolling stands of the first processing block 3. This avoids that forms a plug between the first processing block 3 and the second processing block 4.

Claims

claims A method of operating a forming apparatus (1) for forming a metal material into a metal rod (2) and having at least a first processing block (3), wherein on the side on which the shaped metal rod (2) from the processing block (3) exits, a measuring head (6) of a measuring device for determining the transport speed of the metal rod (2) is provided, characterized in that the determined by the measuring device transport speed of the metal rod (2) or a speed difference between the by the measuring device determined transport speed and the determined by a further measuring device input transport speed of the metal rod (2) material to be formed with a target value is compared and a predetermined procedure for avoiding a forming plug or to protect the system with a male connector is carried out when the transport speed, or the Speed difference over a predetermined amount deviates from the setpoint. 2. The method according to claim 1, characterized in that the desired value is adjusted during the molding process. 3. The method according to any one of claims 1 or 2, characterized in that at least one drive element of the shaping device is stopped when the transport speed, or the speed difference over a predetermined amount deviates from the desired value. 4. The method according to any one of claims 1 or 2, characterized in that the train on the metal rod and / or the metal material is increased if the transport speed, or the speed difference over a predetermined amount deviates from the desired value. 5. The method according to any one of claims 1 or 2, characterized in that the inlet speed is reduced in the processing block when the transport speed, or the speed difference over a predetermined amount deviates from the desired value.