DE1615466C - Electric welding device - Google Patents

Description

466

ι ■ - 2.

The invention relates to: a device for electrodes, runs. This type of connection provides how

electric welding under a blanket. found one; became the highest; Mass flow and the

granular welding material with electrode feed for best welding results.

directions that have a front, a middle · · and; The invention is described below; based on

Back electrode generally explained in more detail in the direction of a common 5 figures. It shows ι

Advance the melting zone on a workpiece; a Fig. 1 is a circuit diagram of a preferred embodiment

Drive the workpiece or all three: electrode guide form of the device according to the invention,

moved in the direction of the welding path, and Schaltüngs- Fig. 2 is a schematic cross section of the

break down the workpiece and at least two of the weld joint and

Electrodes on separate phases of a multiphase io F i g. 3 is a circuit diagram of a modified off AC power source connect. guidance form in which the back electrode with direct

Tandem welding devices are known which are fed with electricity.

which two welding electrodes over two in Scott- In the device according to FIG. 1, two transformers lying on the circuit are fed. phase transformers IO and 12 in Scott circuit With devices of this type, welds 15 are connected to one another and to lines A, B and C of a three-phase alternating current source with significantly reduced undercutting, while being maintained. On the other hand, did it come down to higher welding speeds than with such a third single-phase transformer 14! Two electrodes ^ · is connected to lines B and C. The arrangements are achievable, so far welding primary winding 16 of the transformer 14 is devices with three in tandem arrangement one behind the other 20 via conductors 18 and 20 with the lines B and C welding electrodes used which are connected. The primary winding 22 of the transformer is fed via star-connected transformers by means of conductors 24 and 26 to the lines B , whose primary windings are connected to a three-phase and C line . The primary winding 28 of the power source is connected and its secondary transformer 12 is connected to the electrodes via a conductor 30 with which the windings are connected to the electrodes, 25 line A and via a conductor 32 to the center of the three electrodes to an appropriate point of the primary winding 22,
mutual phase shift is obtained. The secondary winding 34 of the transformer 10 is the supply of three consecutive welding electrodes with direct current and single-phase alternating current via a line 36 with a front electrode 38 and current to the workpiece 40 via a ground line 42 is known. 30 connected. Similarly, the secondary

The invention is based on the object of a winding 44 of the transformer 12 via a line To create welding jig that allows the formation of 46 to a center electrode 48 as well as ah the ground undercuts also connected for welding power line 42. The secondary winding 50 avoids the opposite of the known two of the transformer 14 is via a line 52 with Electrode arrangements achieved welding performance 35 with a back electrode 54 as well as with the ground line 42 are increased. connected.

This task is carried out on the basis of a device of the type mentioned according to the invention, thrust devices 39, 49 and 55 in the direction of solved in that the center electrode and one of a common weld pool 56 in the the other two electrodes and the workpiece in a 40 V seam at the joint of the workpiece to be welded known way to the secondary conductors of two in under a blanket 58 from a grainy welding Scott circuit lying transformers. medium advanced when the welding process is determined are * whose primary conductor progresses with a three-length of the weld seam. This will be phase current source are connected, and that workpiece 40 by means of a drive 51 in the direction the third electrode and the workpiece moved to one in 45 of the weld.

Phase with one of the phases of the three-phase current Three weld heads in tandem

source working alternating current source or to one, for example, three 1500-ampere trans-

DC power source are connected. The welding formers are fed. Trial welds were made

Device according to the invention allows substantially 12 m long pipes with a diameter of

higher welding speeds than the well-known 50 760 mm and a wall thickness of 9.5 mm.

Device with two lying in Scott circuit leads. During the first welds, the front

Electrodes. The advantage of the well-known two-electrode electrode connected to one phase, while the central

. Scott circuit, namely the considerably reduced and back electrode fed via the Scott circuit

Tendency to form undercuts, will have been thereby. A circuit of this type offers numerous

Surprisingly, due to the magnetic influence 55 combinations for the phase rotation and the

the arc of the third electrode does not restore phase relationship between the currents in each

eliminated, but is retained in full. Leg. To ensure the best electrical connection

Are the transformers in the Scott circuit visibly phase rotation and phase distribution zwitor The three-phase transmitters were connected in such a way that a phase rotation can be seen to achieve the currents via the front and center electrode and the 60 primary and secondary sides of the Scott circuit Electrode connections passing clockwise currents to the workpiece not changed. for will hold is, according to an advantageous further, such an arrangement provides the correct phase formation of the invention the third electrode to the rotation in connection with a constant ground secondary winding a single-phase transformer, based on the size of the two welded closed, which flows with electricity from one of the phases of the 65 used for the two welding electrodes Three-phase power source is fed, with the

The conclusion is made in such a way that the phase rotation is added. However, the third, single-phase

For currents clockwise, based on all three closed welding electrodes, the phase dis-

Claims (2)

1 615 468 3 4 drawing between; is dependent on the welding currents. For these experiments, a current transformer and an ammeter were placed in the ground branch from the connection of the primary winding of the one. Tubes phase alternating current transformer are changed, with 12 nt length were at a welding speed * - without affecting the phase rotation: zn. With this speed of 256 cm / min, satisfactorily welded special construction, the recommended rotation 5 was retained for the rear electrode either a wire for the front and rear electrode as well as a 4 mm diameter wire or a 3.2 mm wire clockwise) . By changing which was used. This represents a 50% increase in the primary connection of the welding speed feeding the third electrode compared to the single-phase transformer, it was possible to use a twisted two-wire Scott circuit.
Zero, a clockwise rotation or a further 10 tubes were obtained at a counter-clockwise welding speed, measured speeds of 270, 279, 284 and 297 cm / min, between the three welding electrodes. welded. In this series of tests, a wire electrode with 4jO, 3.4 or 3.4 mm through a conventional phase meter was used to determine the phase rotation. knives (in that order) used, namely The total amount of the mass flow (without changes - 15 in connection with a mixture of two welding modification of the welding current strength) changed in averages, namely:
dependence on the connection of the primary winding of the single-phase transformer as well. Was found with 20% welding material no. 60 (45% SiO ₂ ; 4% CaF ₂ ; for example the single-phase transformer connected to the primary 42% MnO; 3% Al ₂ O ₃ ; 2% CaO; remainder lines A, B) phase impurities)
anti-clockwise rotation for one Mass flow of over 1000 amps. Were the 80% welding material no.85 (39.5% SiO ₂ ; 4.5% Welding conditions approximately constant- CaF ₂ ; 12% MnO; 5% Al ₂ O ₃ ; 18% CaO hold and swap the connections (B, A), followed by + BaO; 18.5% TiO ₂ ; Remainder impurities) the phase rotation clockwise for a 25th Mass flow of about 500 amps. The connections C, by using this welding agent mixture B and B, C provided a mass flow rate of over which improved the appearance of the weld; into the- 1300 amps. At connection C, B the phase was special, there was less surface graining, clockwise rotation, at connection B, C the flank wetting was slightly better, and the phase rotation is zero. The connection B, C 30 the surface of the weld was slightly smoother than led to the best welding results in this series of tests when welding material no.85 was used alone, results. The increase in welding speed compared to Typical welding conditions were over the two-wire Scott connection The use of three wire electrodes with a welding speed of 4 mm was used in this knife: 35 trap 62.5%. As shown in FIG. 3 shows, the return \ τ ~ -λ - I _n I ₍ . _Λ Ji ο, « _AO o λ / / _Π · Ur, o. ^ electrode 54 and the workpiece 40 instead of one Front electrode 960 A, 28 V (Emphasen- ".,.",. ", -,. AC) single-phase power source can also be connected to a DC power source, so that a supply Center electrode 850 A, 28 V (Scott- 4 ° with direct current instead of alternating current. In Alternating current) in a similar way, the front electrode with direct - be fed with electricity. In any case, the Back electrode 750 A, 30 V (Scott center electrode and the third electrode by means of AC) transformers fed in a Scott circuit Earth 1300 A, positive «. Welding speed 256 cm / min .; Patent claims: Phase rotation Zero 1. Device for electrical welding Welding agent No. 85 .. (39% SiO ₂ ; 4.5% CaF ₂ ; ⁵ ° ^un | f ^r , ^a . ^E / i? ^ ^E f ^us a granular welding 12 ° / MnO- 5 ° / Al O 'medium with electrode feed devices that iao / ° r * r \ l tiJA- ta ^ o ³ ; ' a front, a middle and a back electrode Tin · ρ «* Vi-i-iinrmni ^{In the} direction of a common melting zone euneen) a workpiece, a drive, . 55 of the workpiece or all three electrodes moved in the direction of the welding path, and A check of the mass flow showed that circuit elements, which the workpiece and min- a connection of the primary winding of the single-phase at least two of the electrodes to separate phases Connect the transformer to the lines C, B to the high- a multiphase alternating current source, most mass flow led. When using the inven- 60 characterized in that the According to the device, the welding quality is the center electrode (48) and one of the other two by the amount of the electrodes (38, 54) flowing in the ground branch and the workpiece (40) in Affected current. Preferably, the maximum is known to the secondary conductor of two used with good welding quality. in Scott circuit transformers (10, In the course of further investigations, the 65 12) was connected, whose primary head with single-phase connected welding electrode behind a three-phase power source the two welding stands connected in Scott connection, and that the third electrode and that electrodes placed, as shown in FIG. I illustrated workpiece to be in pha-ie with an animal! 'Lenses AC power source operating the three-phase power source (14) or connected to a direct current (DC) source. 2. Apparatus according to claim 1, wherein the transformers lying in Scott circuit such are connected that a phase rotation of the front and center electrodes and the Workpiece current clockwise currents is obtained, characterized in that the third electrode (54) connected to the secondary winding (50) of a single-phase transformer (14) is fed with power from one of the phases of the three-phase power source, the terminal is made such that the phase rotation of the currents is clockwise, based on all three electrodes. 1 sheet of drawings