DE1108646B - Method for loading the receiver of a horizontal metal extrusion press with inductively heated blocks - Google Patents

Description

Method for loading the receiver of a horizontal metal extrusion press with inductively heated blocks For inductive heating of for processing in metal strand including cable jacketing certain blocks are these in a next The induction coil placed in the press was introduced. The blocks preheated there remain in the bobbin until the point in time after the previous pressing process has expired has come up to introduce the new block into the transducer. The block temperature is measured by means of thermostats and by switching the induction coil on and off regulated to the selected temperature level.

It is common here to insert the block into the receiver bore to be carried out by the known insertion devices. The invention has the task based on improving this charging process for horizontal metal extrusion presses and the effort for the insertion device that removes the block from the induction coil introduces into the transducer bore to reduce.

The invention is based on experience that within an induction coil an asymmetry of the electromagnetic field in the axial direction compared to the block exerts a possibly very large electrodynamic thrust on this.

There are known precautions to prevent unwanted ejection a block from the induction heating coil counteracted by such thrust forces will. It is also known per se, the repulsive shear forces of alternating coil fields to use for movements, e.g. B. for signal adjustments, brakes, tamper mills and more.

The invention is based on the idea that said thrust for Insert the block into the receiver bore using the induction coil at the same time serves as an insertion device.

Here the thrust is generated by the fact that the center of the block in the direction in which the thrust should act, on the common longitudinal axis of the block and coil lies in front of the center of the coil field. Accordingly, there is the invention is that the blocks in the induction coil in front of the mouth of the transducer move and due to the thrust of the block which is asymmetrical in the axial direction Coil change field are transferred into the pickup bore.

The method according to the invention can be designed in such a way that the block to be heated is inserted asymmetrically to the coil field against a stationary stop that absorbs the thrust during the heating period, which is switched off during retraction until it reaches the sensor mouth and then for sudden insertion of the Blockes in the transducer bore is switched on for a short time. In this case, the control of the temperature of the block by means of thermostats, which is required for the block heating system, is designed in such a way that, despite the cooling of the block occurring during the period of retraction, the intended pressing temperature is not fallen below.

In a further embodiment of the invention, this also includes a method in which the switching off of the induction coil and the associated cooling of the block is avoided during the retraction in front of the mouth of the transducer. For this purpose, the electrodynamic thrust of the asymmetrical in the induction field inserted block during the heating-up period and the duration of the running-in the pickup mouth is picked up by a stop connected to the coil, after reaching the pick-up hole for the jerk-like retraction of the block is withdrawn.

A further embodiment of the method according to the invention consists in that the block to be heated is inserted symmetrically in the axial direction into the field of the extended induction coil, which remains switched on for the duration of the retraction, and that after reaching the transducer bore, a coil field asymmetrical in the axial direction to generate "the electro-dynamic thrust is turned on. here, the first symmetrically constructed to block field is changed by switching of an auxiliary winding in an asymmetric field. the invention enables a substantial simplification and cheapening of Blockeinbringv-prrichtung in connection with the Blockerwärmungso (nLocated. in addition, .. against the known - Verfahrenswe ise also 6ine # considerable time savings achieved because the ejection of the block from the induction sink and its inclusion is eliminated through the introduction device.

Another advantage - of the invention - is that the metal extrusion press can be made very short. Only a small amount of space needs to be provided between the receiver end face and the retracted press ram than is the length of the block. The induction coil that can be retracted into this space is not much longer-a-ls the * first # heat-resistant metal block. ' The invention is explained in more detail below with reference to a device for its implementation, which is shown in the drawing. 1 shows a view of the partially cut device from above in the starting position, FIG. 2 shows the same view with the induction coil retracted into the center of the press, FIG. 3 shows the same view immediately before the start of the extrusion process.

In Fig. 1 , the feed channel for the blocks 1 a, 1 b, 1 c is denoted by 2. The feed ram 3 has pushed the block 1 a into the induction coil 4 up to the fixed stop 5 , while the following block 1 b is in the ready position. The induction coil 4 is arranged on a slide 6 which can be moved on the guides 7 by means of a displacement device (not shown). It is switched on - after it has picked up the block, and remains so until it has reached the desired temperature.

The ram 8 is withdrawn only so far with respect to the end face of the transducer 9 that the induction coil 4 (FIG. 2) containing the block 1 a can just be pushed into the free space. While the block is being moved into the center of the press, the induction coil is switched off and the next block 1 b , held by a stop, is pushed in front of the feed ram 3 by a holding device (not shown). The induction coil is now switched on briefly to eject the block and transfer it into the sensor.

From Fig. 3 that position of the insertion device can be seen in which the heated block la is in the receiving bore and the ram 8 has advanced to initiate the pressing, while the carriage 6 with the induction coil 4 has returned to its starting position. A new work cycle now begins in that the feed ram 3 pushes the block 1 b, which is in the ready position, into the opening of the induction coil 4.

Claims (2)

PATENT CLAIMS: 1. A method for charging the transducer of a horizontal metal extrusion press with blocks which are heated in an induction coil parallel to the axis of the extrusion press, move transversely to the axis of the transducer and are then introduced into the transducer bore by a thrust force, characterized in that the block (la) in the induction coil - (4) move in front of the mouth of the transducer (9) and is transferred into the transducer bore (10) by the thrust of the coil alternating field, which is asymmetrical in the axial direction of the block (la). 2. The method according to claim 1, characterized in that the block (la) is used asymmetrically to the coil field against a the thrust during the heating period absorbing, stationary stop (5) in the induction coil (4), which is used during retraction until reaching the The sensor mouth is switched off and switched on again briefly to transfer the block. 3. The method according to claim 1, characterized in that the thrust of the asymmetrically inserted into the coil field (la) during the heating period and the duration of the retraction in front of the transducer mouth by a stop connected to the coil (4) is recorded and this after reaching the pickup mouth is withdrawn to transfer the block (la). 4. The method according to claim 1, characterized in that the block is inserted symmetrically into the field of the extended induction coil, which remains switched on during the duration of the retraction, and that after reaching the transducer mouth, an asymmetrical coil field is switched on to generate the thrust. Documents considered: German Auslegeschrift No. 1030 943; USA. Patent No. 1123 411th; "Machinery", London, Vol. 91, August 30, 1957, pp. 485 to 488.