DE1168093B - Induction heating system for metal blocks - Google Patents

Description

Induction heating system for metal blocks before further processing of metal blocks in extrusion presses or cable presses are mostly inductive heating systems used to ensure rapid and even heating of the items to be used Achieve metal blocks. During pressing, however, the blocks are pushed through the The deformation work acting on them is additionally heated. The blocks have at Bringing into the press a lower temperature than during the actual press Work process. In order to maintain a uniform temperature during the entire pressing process to obtain what is called isothermal pressing, it is therefore necessary to the beginning of the block, i.e. the part of the block that is deformed first to bring a higher temperature than the rest of the block that passes through the work of deformation is additionally heated during pressing.

In order to achieve greater heating of the end of the block at the front of the press - which will be referred to as the block head in the following - part of the induction coils that induce the current required for heating the block to be heated in the block can be switched off, see above that z. B. only the block head is fully heated. You can also pull the block out of the heater so slowly that the rear end of the block is heated more than the remainder of the block, and invert the block before placing it in the press. Both methods, however, worsen the possible utilizability of the heating devices. Since several heating devices often work on one press, it may be necessary to connect a further heating unit in parallel to compensate for the lower utilization of the device. In addition, especially if there are several heating devices arranged in parallel, these can only be set up at a certain distance from the press, so that a noticeable transport route to the press has to be covered on which, apart from the general heat loss due to radiation, a Part of the heat from the block head can flow away into the remaining part of the block, which in practice means a partial re-cooling of the block head.

There are known inductive heating systems in which metal parts are heated one after the other in two different inductive heating devices for solving tasks that are significantly different from those that come into question in the aforementioned context. The invention makes use of such systems, which are known in principle, whereby the disadvantages mentioned at the beginning are avoided by the fact that for the use of the system for heating metal blocks that are to be isothermally pressed in an extrusion press or cable jacket press ' for additional heating of the heads of the first inductive heating device uniformly heated blocks near the press a second inductive heating device is arranged in which the blocks are introduced by means of a conveyor for a short time immediately before pressing so that the head is in the active area of the inductor.

The additional inductive heating device can be arranged at the end of the conveying path of the transport device. The block head must then either inserted into the additional inductive heating device, and be moved out again after completion of the addition the heating process, or the additional in 'inductive heating device is moved over the block header and moved back after completion of the heating process.

The additional inductive heating device can also be used before Be arranged at the end of the transport device. The block then drives against you Stop that fixes its position so that the block head in the additional inductive Heating device comes to rest. After the additional heating process has been completed the stop is lowered, swiveled out or withdrawn and the block of Press fed. You can use the stop that the block when approaching in such a additional inductive heating device fixed in position, with a limit switch provided that switches on the inductive additional heating and at the same time causes the conveyor device to stop. The termination of the heating process can be controlled by a time relay that works together with inductive heating is switched on and switches off after the set time has elapsed will. It is also possible to measure the temperature of the block head with a temperature measuring instrument by touching the head or with a radiation measuring instrument and at When the setpoint is reached, switch off the inductive heating and continue the transmission to initiate the relevant block at the point of introduction in the press.

An exemplary embodiment is shown in FIG. 1. Here three heating systems 1, 1 ' and Y' are arranged next to one another for supplying the press 9. In the induction heating systems 1, 1 'and Y' , metal blocks 2 are heated evenly over their entire length. After the intended temperature has been reached, the block 2 is pushed from the system Y ' onto the roller table 4 in the exemplary embodiment.

Block 2 is moved over the roller table up to stop 7 . The stop 7 is provided with a limit switch, not shown, which initiates the following operations via a switching device: stopping the movement of the transport device 4, holding the block by holding device so that the block is not thrown out of the coil by the electrodynamic forces that occur when the induction heating coil is switched on is, as well as turning on the heater of the additional inductive heating device 5. Along with this switching operation is switched on a Zeitrelals which switches off the additional inductive Erwännungsvorrichtung 5 after an adjustable time. The shutdown can also be carried out by a temperature measuring device after the temperature setpoint of the block end to be additionally heated has been reached. Together with the switching off of the additional inductive heating device, the holding device 6 is first released, then the command for pushing out the block is given by the device 7 via a switching device. The block is pushed runway before the discounts and operated there a limit switch for the elimination of this movement. Through a further switching device, the ejector 8 is set in motion and conveys the block by switching off roll in the press or at a particular cross tractor 9 '. which conveys the block in front of the press ram. Another limit switch switches off the switching device for the transverse transport of the block. At the same time, this limit switch actuates the switching device for the return of the transverse tractor. This returns to its end position, where a limit switch switches off the conveyor mechanism of the cross tractor.

Another arrangement of the additional inductive heating device is shown in FIG. 2. Here the additional inductive heating device 5 is arranged a little more than a block length in front of the end point of the transport device 4. In this case, too, the heated block comes out of one of the induction heating ovens 1, 1 ' and Y' and is fed to the transport device 4 via the transverse tractor 3. From this the block is moved up to the stop 7 so that the block head protrudes into the additional inductive heating device 5 . The switching device for the transport device 4 is switched off and the retaining device 6 is actuated by a limit switch ( not shown ) attached to the stop 7, which is actuated when the block is approached. At the same time, a time relay is switched on, which switches on the switching device for the additional inductive heating device 5 and another time relay after a period of time during which the block is held with safety allowance. After the setting time of this time relay has elapsed or, if a temperature measuring device is used, after the prescribed temperature setpoint has been reached, the time relay or the temperature measuring device switches off the additional inductive heating device. At the same time, the switching device for the retaining device 6 is actuated so that the block is free. Then the stop 7 is moved out and pivoted away via a switching device. This movement is ended by a limit switch or by switching off the associated switching and conveying device. Then the switching device for the transport device 4 and for the retainer and ejector 6 is actuated, so that the block is advanced to the stop 7 ' and the retainer is moved to the side. A limit switch, which stops the transport device 4, is attached to the stop 7 ′. The limit switch also switches on the switching device for the cross tractor 9 ' and for the return movement of stop 7 . The stop 7 is then swiveled in again, retracted into the coil 5 and stopped in its end position by a limit switch, whereupon the additional inductive heating device is ready for loading by the next block. In the meantime, the block, which has been warmed up by the paver, has been brought in by the cross tractor 9 'in front of the press ram. This movement is ended when a limit switch is approached. The same limit switch switches on the device for the return of the Ouerschlepper 9 ' after the block has been deposited. In the starting position, the drive of the transverse tractor 9 'is stopped by a limit switch. Drives of any type, e.g. B. hydraulic, pneumatic, electromotive or electromagnetic devices are used.

The invention is not restricted to the exemplary embodiments described, but rather is capable of various modifications. For example, the number of extension systems 1 to Y 'can also be greater or less than three. The additional heating device can also be arranged displaceably, so that it is pushed over the block head to be additionally heated and is conveyed back again after additional heating has taken place. The movement processes can be controlled in a manner similar to that described in the examples discussed.

Claims (2)

Claims: 1. Induction heating system in which metal parts are heated one after the other in two different inductive heating devices, characterized in that for the additional heating of the heads of the in a first inductive heating device (1, 1 ', V') uniformly heated blocks (2) in the vicinity of the press (9) a second inductive heating device (5) is arranged in which the blocks immediately before pressing by means of a ' conveyor device ( 4) are introduced for a short time so that their head is in the angular range of the inductor. 2. Induction heating system according to claim 1, characterized in that the first inductive heating device for the uniform heating of the blocks is divided into several units (1, l ', Y') which alternately supply the second inductive heating device. 3. Induction heating system according to claim 1 or 2, characterized in that the second induction heating device (5) is movably arranged at the end of the conveying path to the press so that it can be moved over the front end of a block lying on the transport device. 4. induction heating system according to claim 1 or 2, characterized in that the second induction heating system (5) is fixedly arranged at the end of the conveying path to the press and that the blocks by means of the conveying device (4) with their front end in the second inductive heating device (5) are retractable. 5. Induction heating system according to claim 1 or 2, characterized in that the second inductive heating device (5) is set up for conveying the blocks on their way to the press and is provided with a holding device for temporarily holding the blocks in a position in which the front one End of the block is in the heater. 6. Induction heating system according to one of the preceding claims, characterized by a switching and control device through which the promotion of the blocks from the first to the second inductive heating device and the input and output in a known dependence on limit switches, stops with switching devices, timers and temperature measuring devices Elimination of the latter and the further conveyance of the blocks to the press can be controlled automatically. Documents considered: German Patent No. 896 244; German Auslegeschrift No. 1083 555; U.S. Patent No. 2,572,073.