SU1613268A1 - Surfacing head - Google Patents

Abstract

The invention relates to welding engineering and can be used for surfacing and making welds with transverse oscillations of an electrode on cylindrical surfaces. The purpose of the invention is to improve the quality of surfacing by means of an unaccented shutdown of the burner at extreme points of amplitude. The head consists of a housing, an oscillation drive with a cam mechanism, a two-arm lever, an oscillation-amplitude adjustment mechanism, a flat axis, which is mounted on the shoulder of the double-arm lever opposite to the burner, and stops, which are placed symmetrically with respect to the axis movement element. The axis is mounted on a double-shouldered lever with an eccentricity. The stops have a working part of rectangular cross section and are configured to adjust the duration of contact with the axis. 6 Il.

Description

The invention relates to a welding technique and can be used for building up or for making welds with transverse oscillation of an electrode on cylindrical surfaces.

The purpose of the invention is to improve the quality of surfacing by means of an unaccented shutdown of the plasma torch at the extreme points of amplitude.

FIG. 1 shows schematically the proposed surfacing head, a general view; in fig. 2 shows section A-A in FIG. In FIG. 3 shows a section BB in FIG. 2; in fig. 4 shows a section B-B in FIG. 2; in fig. 5 is a section of YYD in FIG. 2; in fig. 6 is a section d-d in FIG. 3

The head includes a housing 1. on which a drive 2 is installed with a cam mechanism 3 consisting of a profile cam 4 and a roller 5. The roller 5 is fixed on the eccentric axis 6 with a flat element

7 bearing assembly 8 located on the double-arm lever 9. The latter is located on the axis 10 of the bearing assembly 11 connected to the housing 1. On the second arm of the lever 9 there is a toothed sector 12 which engages with a rail 13 placed in the supports 14. On the rail 13, a roller 15 is secured, which is inserted into the groove of the strip 16, which is fixedly connected to the amplitude adjusting mechanism 17, equipped with a handwheel 18 and a handwheel 19 of the locking device. The mechanism 17 is mounted on a carriage 20 located in the guides 21 and 22. The carriage 20 carries a bracket 23 with a setting mechanism 24 and a plasma torch 25. Racks 26 have stops 27 and 28. The working part of which in cross section has a rectangular shape (Fig .6). The stops 27 and 28 are provided with fingers 29 and threaded handles 30 with flanges 31.

about

W

to about cx

On the axis 6 there is a pin 32 in contact with the stop 33 of the bearing unit 8, v a torsion spring 34, one bar connected to the axis 6, and the other with the node 8. On the case 1 there is also a casing 35,

The surfacing head works as follows.

From the actuator 2 mounted on the housing 1, the rotation is communicated to the profile cam 4 of the cam mechanism 3, which, using the roller 5 attached to the $ axis of the bearing assembly 8, causes a periodic rotation (oscillation) of the two shoulders | {9} of the arm 9. The latter is rigidly connected to the FSF 10 bearing assembly 11 and having a toothed sector 12 on the second shoulder (Indicates reciprocating motion: 1, located in the supports 14 of the rail 13, which, in turn, with the help of the roller 15 running into the groove of the bar 16, causes the fighting movement of the carriages ki 0 in the guides 21 and 22 and the plasma torch 5. To adjust the plasma torch 25 to the surfacing line, mechanism 24 is used; it is replayed on the bracket 23. i By rotating the handwheel 18 of the ft7 mechanism, the amplitude of the plasma torch 25 is adjusted by changing the angle of inclination strips 16; the larger the angle of rotation, the greater the amplitude. The handwheel 19 of the mechanism 17 fixes the inclination of the stripe 16. An unaccented stop is reached keM, which at some distance from the extreme position of the roller 6, the eccentric axis 6 rotates, for example, from the interaction of its planes The element 7 with the stop 27 or 28. At the same time, the roller 5 of the cam mechanism 1 continues to move to its extreme point, and the lever 9 stops, since the remaining distance to the first extreme point is compensated by the eccentricity of the turning axis 6.

When the roller 5 starts to move in the opposite direction under the action of the spring 34, the flat element 7 of the axis 6 returns to its original position, namely: the finger 32 contacts the stop 33. The resulting increase in the oscillation speed due to the folding of the speed of rotation of the lever 9 and the speed of rotation of the axis 6 compensates for the insufficiency in the process of its growth after the cam 4 transitions to the zero position. To ensure a stop in both extreme positions of the lever 9, it is necessary that the rotation of the axis 6 takes place only in one direction. Therefore, the stops 27 and 28 are separated by Ezertikali, i.e. located symmetrically with respect to the trajectory of the center of the roller 5. The stop value is determined by the length of the overhang of the lugs 27 and 28. The radius is adjusted by the handle 30 located on the threaded part of the lugs 27 and 28 and fixed by a flange 31 to the column 26. , prevents stops 27 and 28 from turning. Dental pair - rail 13 and sector 12 - covered by a casing 35.

The proposed head provides plasmatron oscillations without splashing the filler material at the extreme points of amplitude as a result of an unstressed stoppage, thus improving the quality of the weld deposition.

Claims (1)

The formula invented and a surfacing head comprising a housing, a oscillating drive with a cam mechanism, stops, a two-arm lever, a carriage with a burner and an amplitude control mechanism, which, in order to improve the quality of the build-up by means of an impactless stop of the burner at the extreme points of amplitude, provided with an axis. made with an eccentricity on the opposite shoulder of the two-arm lever from the burner, and the stops are installed symmetrically about the axis with the possibility of contact with its flat element. 1 BUT one 2 one 6-6 2726 31 30 d in FIG. and FIG. 6 Yr sixteen FIG. five