SU94289A1 - Device for spot welding of aluminum alloys - Google Patents

Description

When dotting the 1st welding of aluminum alloys, welding currents of up to 50,000-100,000 are used, and with continued workmanship of the current collection system: activity, 0.02-0.5 sec. This determines the complexity of the machine control equipment for spot welding of aluminum alloys. From the three control units on the machine for point aluminum alloys: welding controller of the first current, pressure electrode regulator and welding time controller; the latter is the most difficult. For example, synchronous 1-switch interrupters comprise up to 50 separate electrical components (multiwinding transformers, l | a1mp, capacitors, cone | 1gmvleniya, relays, etc.).

The main drivers for the use of such complex circuits of electronic circuit breakers are the following:

1. to ensure the stability of welding points in terms of strength, it is necessary to withstand: the duration of the welding current with an accuracy of: • rO, 1 trans | Iodine of alternating current;

2) the asynchronous switching on of welding transformers can lead to a current in the primary circuit, which according to some observations is superior to the neuschial current by the fullness of the bottom transformer approximately 8 times.

However, in production operation, complex circuit breakers are highly undesirable. For many reasons, the most important of which are the following:

a) the need for pre-heating; 5th and x; in the scheme of tiratrons;

b) the frequent occurrence of defects in complex circuits and, as a consequence, the need to have personnel for maintenance of installations

BbicoKoii qualifications for the timely search for and elimination of contempt.

To eliminate the above drawbacks, it is proposed to apply for spot: contact welding 11 of a il iljen nov slavov acnii synchronous ignitron n |; eryvatel, compocandy from ignitron KOii inactor and ineamatic and TI motor YC.ie time for ;;; adjusting the duration of the welding and

The electrical cxeMia iodobyugo asiihroknago Ignitrons nreriate.ch shown in cherteise where / - Resistance welding machine, 2-ignitronnyG nreryzatel composed of two ignitrons, 3-.kontakty finds ii1es in Exalt zamigateley ignitrons UTRA and: is e1mye BjieMeHH relay.

In spot welding of aluminum snlavov, the power of welding machines is significant and comes to greatness, comparable to the power of the power supply) | systems (production:; - 1ektrosetn).

With asynchronous switching on of the welding device; Transformer. A niTiNiRiAlietel according to the schel: s, G1Okkaz-an1o (: and, in the drawing, the current from the network to the trans- formator passes first through the resistance of the ignitors and only after excitation of the ignitrons the transformer is connected to the network.

The ability of the transformer to be connected to the mains at the most common volt-to-tune (by the magnitude of the primary current) MOMeirr, and specifically, when the voltage is tied, it doesn’t have the network T through zero, when switched on through an ignitron interrupter, because at the specified time Ignitrons cannot excite.

Ethnical circumstances and provide the possibility of using an aynchronous interrupter for controlling welding machines for spot welding aluminum strips without danger to the power supply system. Rare shocks of an amnlitude of the nepBoii half-wave of the primary current of a powerful electric welding machine of 150–200% is usually permissible for the Production Electricity Network. It has been established by experiments that the highest value of the first half-wave of the primary current in the installation in the frame shown in the drawing does not exceed 170% of the average value of the current. Therefore, from the point of view of power supply capabilities, it is not possible for asynchronous switching on a powerful tool for spot welding to occur. Ie can.

The technological possibility of simplifying the welding time control unit is determined by the fact that welding time fluctuations, even within ± 15% of the optimal value, give the maximum amount of time required for a-ionium alloys of the total liip per g; 2.5%. Significantly more power; the effect is: the effects on the welding point of the change in pressure and on the electrodes and the magnitude of the current (and, therefore, voltage fluctuations in the network, non-resistance of the sample, inconsistency of the working surface of the electrodes, etc.) So obozom. Asynchronous switching-on and associated with it low accuracy for time re- stating the time of operation). And; welding current can also be used with the technology: 11: the side of welding production.

The use of a self-locking ignitron interrupter with a pneumatic or motorized time relay makes it possible to simplify and save power, as well as operating the apparatus and eliminate the defects of ignitronic installations associated with the presence of more or less complex control circuits of ignitrons. The subject matter of the invention is the use of an asynchronous ignitron time contactor to control nium alloys.

AO 94289

- 3 - shnitronnogo ripper, consisting of pneumatic or motor ratiness of spot welding aluminum

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