CS232055B1 - Tool for shaping of elestic deformed groves of electric rotary machines isolations - Google Patents

Description

( ⁵⁴ ) Tool for forming resiliently deformable groove rotating

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a tool for forming resiliently deformable groove insulations of electrical machines of rotating thermal classes F, H and C, consisting of a matrix, provided on the upper side with adjustable guide plates for correcting the outer shape of the groove insulation profile. The transfer plates of the transferable punch formed by the clamping pin for attaching the punch to the locomotive apparatus, provided in the lower part with an L-shaped frame in which a punch is mounted to its vertical arm opposite the ezer between the die guide plates. punch with the possibility of easily adjusting different punch sizes according to the size of the gap between the guide plates and thus replacing the previously necessary exchanges of different sizes of geometrically similar punches, which leads to higher operability as well as to save production material and purchase costs and at the same time to reduce the demands on space for storage of punches. This is achieved in that the punch is formed by a basic fixed bar to which at least one additional bar is removably and displaceably attached in the direction of movement of the punch.

232 055 (11) (B1) (51) Int. Cl. 'H 02 K 15/02 insulation of electrical machines

232 05S

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a tool for forming resiliently deformable groove insulations of electric machines of rotating thermal classes F, H and G, comprising a matrix, provided on the upper side with adjustable guide plates for adjusting the outer shape of the groove insulation profile and opposite to the guide transferable punch matrix plates, formed by a punch for attaching the punch to the locomotive apparatus, provided with an L-shaped frame at the bottom with a punch attached to its vertical arm opposite the gap between the die guide plates ·

Previously, the use of a tool for shaping spiral insulations of electric rotary machines is made by attaching individual butchers for each selected dimension of the profiled groove profile with an external shape corresponding to the shaping profile. the need for a disproportionately large number of dimensionally graded punches, which, for the time being, has to be manufactured, exchanged in a punch and, of course, also stored for each required profile size of the groove insulation of rotating electrical machines. Moreover, these tools are difficult to use for shaping resiliently deformable groove insulations of electrical machines of thermal classes F, H and C, especially in the case of single-piece and small-series production of highly thermally used rotary electrical machines manufactured with mutually different groove profile shapes.

232 055

The aforementioned drawbacks are eliminated with the tool for shaping the elastically deformable groove insulations of electrical machines of the rotating thermal classes P, H and C according to the invention, which consists in that the punch is formed by a basic fixed bar to which it is removably and movable in the direction of punching at least one additional rail is attached.

By providing a tool for shaping the elastically deformable groove insulations of the electrical machines of the rotary thermal classes P, H and C according to the invention, both material savings for the production of previously required different punch sizes are achieved and, moreover, operator simplicity is simplified.

The accompanying drawing shows an exemplary embodiment of a tool for forming resiliently deformable groove insulations of electrical machines of the rotating thermal classes P, H and C according to the invention, wherein FIG. 1 shows a front view of a tool punch with a basic fixed bar and additional bars; 1 shows an axial view of the embodiment of the punch of FIG. 3; and FIG. 3 shows a tool for forming resiliently deformable groove insulations in the punch position corresponding to the forming position with the base station and the selected number of additional strips in the gap between the guide plates.

The tool for shaping the elastically deformable groove insulations 12 of the electrical machines of the rotary thermal classes P, H and C according to the invention is formed by a die 8 on the upper side of which the die plates 8 of the die 8 are arranged. and 3, a punch 1 is provided opposite the guide plates 4 of the die 8, which is formed by a clamping pin 4 for attaching the punch 1 to the locomotive device, which is provided with an L-shaped frame 6 at its bottom. 1 and 3, the punch 6 is formed by a fixed base bar 6 to which at least one of the punches 1 is removably and displaceably attached in the direction of movement of the punch 1. Additional rails · Number of additional rails attached to the base 232 055 ~ 3 The fixed fixed bar is given by the difference between the size of the spacing between the guide plates% of the matrix 8 and the dimension of the basic fixed bar 6 in the direction of the spacing between the guide plates 6 of the matrix. a matrix 8 with respect to the thickness of the elastically deformable groove insulation 12 of the electrical rotating machines, belonging to the thermal classes P, H or Co

As can also be seen in FIGS. 1 and 3, the combination of the basic fixed rail 6 and the additional rails 2 may be such that a selected number of additional rails 2, which are arranged at the lower end of the basic fixed rail 6, this basic fixed strip 6 defined extent punch% in the direction of the gap between the guide plates 2 of the matrix 8, wherein the further additional rails 2 are the vertical leg of the frame J fastened in the extended position upward as the storage pr © possible setting different size punch ^Fig ® ² the removable and displaceable arrangement of the auxiliary strips 2 ^{in the} direction of displacement of the punch 1 to the basic fixed strip 6 is realized, which is realized by creating radial displacement grooves 11 in the auxiliary strips 2 in which the screws 10 are then mounted the vertical arm 4 of the frame

Fig. 3 shows a tool for shaping the elastically deformable groove insulations 12 of the electrical machines of the rotary thermal classes P, H and C according to the invention in the position of the punch 1 corresponding to the forming position of these elastically deformable groove insulations 12. The number of additional bars 2 '' is arranged in the gap between the guide plates of the die 8. After the resilient deformable groove insulation 12 has been formed, the punch is moved by means of a movement mechanism with which the punch pin 2 is coupled to a position outside the gap between the guide plates. a matrix piece 8 formed by the resiliently deformable groove insulation 12 is removed and a further piece of resiliently deformable groove insulation 12 may be placed above the gap between the guide plates 2 of the die 8 for forming.

Claims (2)

SCOPE OF THE INVENTION 232 055 Tool for forming resiliently deformable groove insulations of electric machines of rotating thermal classes F, H and C, consisting of a die, provided on the upper side with adjustable guide plates for adjusting the outer shape of the profile of the groove insulations, and opposite, towards the guide plates a transferable punch die formed by a punch for attaching the punch to the locomotive apparatus, provided with a lower L-shaped frame at the bottom thereof, with a punch mounted to its vertical arm opposite the gap between the die guide plates, characterized in that the punch (5) is formed by a fixed base rail (6), to which at least one additional rail (7) is removably and displaceable in the direction of movement of the punch (1); Tool according to claim 1, characterized in that the auxiliary strip (7) is provided with radial sliding grooves (11), in which screws (10) are provided for fastening the auxiliary strip (7) to the vertical arm (4) of the frame (3) ) ·