KR900010477Y1 - Work-clamping devices - Google Patents

Abstract

No content.

Description

Expansion and contraction device for fine adjustment bracket in motor core winding forming device

1 is a partial cross-sectional view taken along line A-A of FIG. 2 showing a conventional configuration.

2 is a partial cross-sectional view showing a conventional configuration.

3 is an exploded perspective view of the present invention.

4 is a partial cross-sectional view taken along line B-B of FIG. 5 showing the constitution of the present invention.

Figure 5 is a partial cross-sectional view showing the configuration of the present invention.

6a, b is a working state of the present invention.

* Explanation of symbols for main parts of the drawings

15: cam groove 16: groove

17: pin 18: shaft pin

19: adjustment cam 20: spring

21: fine adjustment port 22, 23: adjustment bolt

24, 25: Lock Nut

The present invention relates to an enlargement and reduction device for fine adjustment brackets in a motor core winding forming jig device, wherein individual positions of the split perturbation piece using a cam ring are placed on the machining tolerance of the cam groove and the machining tolerance of the split perturbation piece. It is designed to easily fine-tune the dimensional uniformity from the outside because it is slightly different and can not expect the uniformity of the dimension.

Conventionally, as shown in FIGS. 1 and 2, the small diameter of the support ring 2 is coupled to the inner diameter of the table 1, and the reference ring 3 is fastened to the inner diameter of the support 2 so that the reference ring is fastened. The outer diameter of (3) is assembled so as to perturbate with the inner diameter of the cam ring (4).

In addition, the upper small end diameter of the reference ring (3) is assembled with the inner diameter of the guide ring (5), the fastener (6) is assembled to the inner end of the guide ring (5), where it is assembled with the outer diameter of the reference ring (3) The cam ring 4 is provided with the required number of cam grooves 7 (8 in both directions), and each cam groove 7 is assembled with a nut to the slider 9 so that the shaft rod 8 of the cam follower can be perturbed. .

In addition, the movable opening 10 is fixed to the inner end of the slider 9 by the bolt 11, and the connecting pin 12 is fixed to the outer surface of the cam ring 4 for the connection of an external power source. 12 is a configuration in which the cylinder rod 13 and the hinge pin 14 are fastened.

In this conventional configuration, when the external power source acts in the → direction, the connecting rod 12 connected to the cylinder rod 13 rotates the cam ring 4 while the shaft 8 is inserted into the cam groove 7. The fine movement is caused by the angular displacement of (7).

When the shaft 8 moves, the fixed slider 9 also moves in the direction of " " at the same time, and the movable port 10 fixed by the bolt 11 on the inner end of the slider 9 moves in the direction of " → " Will be.

In this state, the cylinder rod 13 is stopped at a predetermined position so that the fixture 6 and the movable tool 10 stop in the state where the width W is maintained.

However, by design, the width W is maintained in the same manner in all eight, but the close position of the lower end of the movable port 10 is closely adhered to the machining position of the cam groove 7 and the center of the shaft rod 8 assembly hole of the slider 9. The cumulative tolerances such as the distance to the surface (P) tolerance and the distance tolerance (C) from the center of the movable port 10 to the assembly surface with the slider 9 do not uniformly produce the width (W), which is the final elapsed dimension. there was.

So far, in order to solve this problem, the liner is inserted between the slider 9 and the movable port 10, that is, the "A" part of FIG. 1, the width W is adjusted, and then dimensioned by welding by the liner thickness. As well as replenishment, precisely manufactured dimensional tolerances were designed in order to minimize the difference in width (W), so that there were defects such as difficulty in processing and time required for processing.

Therefore, the present disclosure is to enable fine adjustment due to loosening or tightening the adjustment bolt from the outside in order to solve such a conventional defect as described in detail by the accompanying drawings as follows.

In the enlargement and reduction device of the divided agitator piece using a cam ring, the cam groove 15 is formed in the cam ring 4, and the cam groove 15 has the groove 16 and the shaft pin 18 coupled by the pin 17. Inserting the adjustment cam 19, the adjustment bolt 22 for inserting the fine adjustment port 21 is elastically received by the spring 20 to the inside of the cam groove 15 and to adjust the fine adjustment port 21 to the outside and Insert the adjusting bolts 23 to adjust the adjusting cams 19 side by side, and lock nuts 24 and 25 to the adjusting bolts 22 and 23 to tighten or loosen the adjusting bolts 22 and 23, respectively. This is to enable fine adjustment.

The present invention as described above is to rotate the cam ring 4 by operating the connecting piece 12 connected to the cylinder rod 13 while the external power source acts in the → direction.

As the cam ring 4 moves as described above, it is possible to maintain the width W from the fixture 6 by completing the movement of the movable tool 10 as in the related art. As shown in FIG. When the adjustment bolt 22 is advanced by a predetermined amount and the adjustment bolt 23 is retracted, the fine adjustment tool 21 pushes the adjustment cam 19 which is in contact with the pusher.

At this time, the adjustment cam 19 is finely pivoted around the center of the shaft pin 18 to the axis, and is eventually inserted into the groove 16 of the adjustment cam 19 by the shaft 8 coupled to the slider 9. Fine adjustment is made in the direction of the arrow.

On the contrary, when the fine adjustment bolts 22 and 23 are reversely adjusted as shown in FIG. 6B, the fine adjustment bolts 22 and 23 are operated in the reverse order of the above-described method to adjust the width to a predetermined width.

The movable opening 10 to be adjusted in this way is completed by fine-adjusting the predetermined width W to eight same dimensions, and adjusting the width nuts 24 and 25 when the predetermined width W is completed. Work is completed by doing (22) (23).

The present invention as described above can easily adjust the nonuniformity of the width (W) due to the machining position accuracy and distance (P) (S) tolerance of the cam groove from the outside during winding of the motor core, as well as post-processing after assembly adjustment ( It eliminates the hassle of welding after welding), and it is possible to easily adjust the required dimensions during molding as an external fine adjustment bracket of the present invention without the need for precise machining as in the prior art, thereby improving work efficiency and processing. It is a very useful design that saves time.

Claims (1)

In the enlargement and reduction device of a split perturbation piece using a cam ring, the cam groove 15 is formed in the cam ring 4, and the cam groove 15 has the groove 16 and the shaft pin 18 coupled by the pin 17. Inserting the adjustment cam 19, the adjustment bolt 22 for inserting the fine adjustment port 21, which is elasticized by the spring 20 to the inside of the cam groove 15, and adjusts the fine adjustment port 21 to the outside; Insert the adjusting bolts 23 for adjusting the adjusting cams 19 side by side, and tightening or releasing the adjusting bolts 22 and 23 by inserting lock nuts 24 and 25 into the adjusting bolts 22 and 23, respectively. An enlargement and reduction apparatus in a molding jig apparatus for motor core winding, characterized in that fine adjustment is made possible by means of: