DE4107984A1 - ELECTRODE BOCK FOR PRESS-SMALL AND TORQUE WELDING MACHINES - Google Patents

Description

The invention relates to a die and burning Butt welding machines certain electrode holder, the The electrode can be replaced after wear.

In such machines, which usually have a variety of Electrodes, the electrodes must be changed often, because the electrodes due to the mechanical and electrical Subject to heavy wear. The elec Changing the trode has an extremely unfavorable effect on the work run out because the exchange time per electrode up to 30 min. takes time and is therefore cost-causing. But there are costs also from the material consumption, because of the wear Electrodes that are no longer true to size are generally not more reused.

This gave rise to the object on which the invention is based, form the electrode holder so that the replacement time of Electrodes is shortened compared to known systems and the Reused burned electrodes are easily possible is.

The solution to this problem with a previously mentioned Elek Trodenhalter, as far as the main thing is concerned, is that ever Replace several electrode blocks in the machine concerned bare electrode holders are kept in stock and these holders ver with a kind of bayonet lock with the electrode bracket bound and with each other with differently raised Aufla ge are provided for the contact surface of the electrode, so that in Frame of replacing the electrodes one by ver wear shortened electrode in the next electrode holder with a higher level of circulation is recyclable. So far, the electrodes have been worn out due to wear had to be changed, ge from their fixation cumbersome solves. This is different according to the invention: that is due to wear shortened electrode is reworked, to the extent of Wear. The now shortened electrode is like the usable because they are now in an electrode holder with around the  Measure of rework raised support for the fitting surface is set. It saves time and therefore also saves costs additionally that the replacement of the electrode together the electrode holder takes place, only a kind of bayonet can be solved with a handle that takes up little time speaks. It goes without saying that the electrode is for her Rework advantageously in the next higher holder is set.

In an embodiment of the solution according to claim 1 it is provided that (cf. claim 2) the electrode holder is a cuboid Body is in which the respective edition in a recess for the electrode is housed like a step. It is of particular advantage that, as claimed in claim 3, the Ba jonet connection of the electrode holder to the electrode block a sliding block in a T-slot in the electrode holder under the pull of a piston, at which point the Wedge effect of inclined surfaces - namely surface and counter area - is used. The piston - cf. Claim 4 - with a pressure medium. Press to release the lock e.g. B. a spring after switching off the pressure in rich piston T-groove.

A special case is solved when the electrode holder is flowed through by a coolant, whereupon the Claims 5, 6 and 7 relate. In this case, the electrical is provide the holder with a duct system to which the inlet and the liquid runs off via the electrode block. Because then - with the electrode holder inserted - inlets and outlets in one and the other part over the gap of these parts are bridging each other at this point in the electro denbock each provided a seal in a recess. And thus when loosening the electrode holder from the electrodes bock coolant does not escape, the line is in the Electrode block via a changeover valve to a compressed air source connectable so that before removing the electrode holder all lines can be blown free of liquid.

In the drawings, an embodiment of the solution is measured presented the invention. Show it:  

Fig. 1 shows a section through the electrode block with the electrode holder and electrode, and the bayonet-type connection of the electrode holder to the electrode Bock,

Fig. 2 shows the channel system for coolant from the electrode block to the electrode holder.

Fig. 1, the unit electrodes between block 1 and electrode holder 2 illustrates the electrode 4. The holding function for the electrode in its holder exerts the screw 7 , which, so that it does not disturb the arrangement but is still reliable, from below to the effective top of the electrode, the mating surface 5 pulls against the pad 3 in the elec trode holder. This mating surface is required in this or similar form in any case, because this ensures the correct distance between the electrode and the welding point. Because the invention is primarily intended to reuse the electrodes which have become unusable due to wear, it is provided that, in spite of the electrode being reworked, no change in the electrode level may occur, that several electrode holders 2 are provided per electrode block 1 . . ., z. B. five, be kept ready and in stock; each of these holders is equipped with a support 3 at different heights for the passport surface 5 of the electrode 4 . In other words, that edition is raised from electrode holder to electrode holder (per electrode block), to the extent of the wear of the electrode, so that the wear, which means shortening for the electrode, is compensated in the next electrode holder with at a higher level is. It is thus achieved in this way that electrodes that have been subject to wear can be reused. It is expedient to design that support 3 as a step 8 in the electrode holder.

In pursuit of the idea of saving costs, care is then also taken to ensure that the replacement procedure can be carried out more quickly than before, which also has a cost-saving effect. When replacing, namely, the electrode 4 remains in its holder 2 , in which it is BEFE Stigt by the screw 7 . As a component, the electrode holder 2 is a quaderför shaped body, which lies in a recess 6 in the electrode block 1 . There, the electrode holder is reliably secured in position and held so firmly that the contact resistance was as low as possible; at the same time, it can also be quickly removed This is achieved by the electrode holder 2 having an incorporated T-slot 10 on the back, to which a sliding block 12 belongs; A piston 14 is used to pull the electrode holder to the back of the electrode block via this sliding block, as soon as pressure is applied to the piston via the bore 20 . In their interaction, the sliding block and the T-slot allow the connection between the electrode bracket and the electrode holder to be released quickly and easily, namely by sliding the electrode holder to the side. In order to increase the positional security of this connection, the back of the electrode holder is inclined inwards (cf. surface 9 ), and this surface lies on an equally inclined surface on the electrode bracket (cf. counter surface 13 ), so that with the further surface as Pad (see. Surface 13 ') of the electrode holder 2 is held firmly under the wedge effect in the recess 6 of the electrode block.

The spring 11 is accommodated in a cylinder bore 15 in the electrode block and acts there on the piston 14 guided in the cylinder as a bridge to the sliding block 12 in the T-slot 10 . As soon as the piston 14 is relieved of pressure, the spring 11 presses the piston 14 and thus the sliding block in the direction of the T-slot. The bayonet catch is released.

This constructive arrangement allows the slot nut 12 , if it is temporarily exposed after the removal of the electrode holder 2 as part of the electrode replacement procedure, remains in an accessible position, which is necessary for the insertion of another electrode holder. This is achieved in that the piston 14 in the pressure direction of the spring 11 strikes at 19 , so that the sliding block 12 , from the exposed, only has to be moved insignificantly to the tensioned position.

It is often necessary to cool the holder for the electrode, which is advantageously done with a liquid. For this case, a channel system 16 is provided in the electrode holder 2 in the solution according to the invention, as shown in FIG. 2. At the circuit for the channels is in the electrode block 2 and consists of a line 17 in the form of holes. At the point where the inflow from the electrode block into the electrode holder and back again, the bores of the channel system 16 and the line 17th In order to avoid damaging leakage at this point of the transition from one component to the other, an indentation is inserted in the electrode block 1, an annular seal 18 . And so that when changing the electrode holder liquid is not able to flow out, it is easily seen that - still outside of the electrode block 1 - a switching valve (not shown) to a compressed air source, so that it is possible, before each release of an electrode holder of the electrode block not only to stop the inflow of the cooling liquid, but also to blow out the residual liquid from the duct system 16 and the line 17 .

Claims (7)

1. For butt and flash welding machines certain elec trode block with possibly cooled by a liquid electrode holder, the electrode can be replaced after wear, characterized in that each electrode block ( 1 ) in the machine in question has several interchangeable electrode holders ( 2 ) in stock are and these holders are connected via a type of bayonet connection with the electrode bracket ( 1 ) and are provided with each other with differently raised supports ( 3 ) for the mating surface ( 5 ) of the electrode ( 4 ), so that one each by replacing the electrodes Wear shortened electrode in the next electrode holder with raised level of the support ( 3 ) is reusable. 2. Electrode bracket according to claim 1, characterized in that the electrode holder ( 2 ) is a cuboid body with a recess ( 8 ) for the via a screw connection ( 7 ) festge held electrode ( 4 ), the different from the electrode holder to the electrode holder raised support ( 3 ) is formed by a step ( 8 ) in the recess ( 8 ). 3. Electrode block according to claims 1 and 2, characterized in that the cuboid electrode holder ( 2 ) has a downward inclined surface ( 9 ) and there a T-groove ( 10 ) in which a rearward pull of a piston ( 14 ) standing slot nut ( 12 ), with which the electrode holder with the inclined surface ( 9 ) is pressed against a corresponding inclined counter surface ( 13 ) in the electrode block under wedge action. 4. Electrode block according to claim 3, characterized in that the sliding block ( 12 ) merges backwards into a piston ( 14 ) with guidance in a hollow cylinder ( 21 ) and this piston ( 14 ) under the action of the pressure medium via the bore ( 20 ) stands tense behind. 5. Electrode bracket according to claims 1 to 4, characterized in that when the electrode holder ( 2 ) is cooled with a liquid, this holder is provided with a channel system ( 16 ), the outlet and inlet of which are congruent with the outlet and inlet of the line ( 17 ) for the coolant in the electrode block. 6. Electrode bracket according to claim 5, characterized in that this bracket at the points of entry and exit of the line ( 17 ) in a recess has a seal ( 18 ) for sealing the gap between the electrode bracket and the electrode holder. 7. Electrode block according to claims 5 and 6, characterized in that the line ( 17 ) for the cooling liquid can still be connected outside the electrode block via a changeover valve to a compressed air source.