KR900007714Y1 - Automatic setting device of magnetron anode frame's phase - Google Patents

Abstract

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Description

Frame phase autofit of anode for magnetron

1 is a side schematic view of a conventional manual phase alignment device.

2 (a) and 2 (b) are a plan view of an anode for a conventional magnetron and a plan view of an outer strap.

3 is a plan view of a phase automatic alignment device constructed in accordance with the present invention.

4 is a front cross-sectional view of a phase automatic alignment device constructed in accordance with the present invention.

5 is a side view of a phase alignment device constructed in accordance with the present invention.

6 is an operation explanatory diagram of the present invention.

* Explanation of symbols for main parts of the drawings

2: anode 4 ': jig block

5, 6: fiber sensor 7, 8: switch

9: air chuck 10: chuck king jaw

13: drive motor 19: rotating shaft

The present invention relates to a device for automatically adjusting the phase of the anode of the magnet for anode (ANODE), and in particular, when the strap (strap) having the same phase as the component having multiple vanes such as the anode, the frame is set to the correct position The main focus is on providing a phase-fit device that allows it to be coupled to position.

That is, as shown in FIG. 2 (a), in the anode body 2, vanes 29 of the north and south n are radially installed toward the center point, and in the circular groove formed on the upper side of the vane ( as in b) Inner and outer straps S1 and S2 in which two phases are formed are respectively installed in a state in which the phases coincide with the vanes.

Here, in the conventional apparatus for coupling the anode body and the strap, as shown in FIG. 1, the block-shaped jig 4 formed symmetrically with the shape of the anode body 2 and inserted into the groove is provided with the block 1. It was set on the above, manual work was put on it, and the outer straps (S1, S2) were placed thereon, and then the anode body was put thereon to press-fit the air press (3).

By the way, by combining the anode body and the strap by hand as described above, the following problems occur. First, the oscillation frequency defect of the magnetotone is caused by the unevenness of the quality.

Second, productivity is reduced due to manual handling of small parts, straps.

Third, since the work of matching the phase and the vanes of the straps is performed only by the operator's eye, many assembly defects occur.

Accordingly, an object of the present invention is to solve the conventional problems as described above, and to provide an apparatus for automatically and accurately adjusting the phase of a frame. Specific means for achieving the above object are as follows.

That is, as shown in FIGS. 3, 4, and 5, the jig block 4 'is provided on the base plate 18 of the phase autofit device with the support 21, the anode air chuck 9, and the rotary unit housing ( 20) This bolt is fixed and installed.

On both sides of the jig block 4 ', reflective fiber sensors 5 and 6 for detecting anode vanes are provided with a predetermined amount S offset from each other (see FIG. 6). Is attached to the two support bases 21 as bolts.

In addition, the ball bearing 22 is assembled up and down in the rotary unit housing 20 to support the upper and lower parts of the rotary shaft 19 precisely, and the gear 17 is restrained by the precision key at the lower part of the rotary shaft, and a strong bolt for preventing the release ( 25) is assembled with the rotating shaft. The gear 17 is engaged with the pinion 16 fixedly coupled to the reduction gear 13 'shaft directly connected to the drive motor 13.

In addition, the upper portion of the rotary shaft 19 to form a guide portion 19 'of the rotary shaft 19 in order to maintain the concentricity with the center of the air chuck 9 is precisely fitted, assembled to the upper air chuck 9 When the chucking jaws 10 are opened and closed, the center of the anode 2 placed on the jig block 4 'is not shifted from the center of the jig block.

In addition, sensor detection dogs 11 and 12 for air chuck position control are fixed to both sides of the mounting plate 26 of the air chuck 9 precisely fitted with the rotating shaft 19 for phase alignment. Denoted at 11 is for air side home position control, and left dog 12 is for preventing motor overturning.

Looking at the operating state of the present invention configured as described above are as follows.

As shown in FIG. 6, when the anode 2 is placed on the jig block 4 ', each vane 2a is placed at an arbitrary position P1.

At this time, after chucking the outside of the anode frame 2 by moving the air chuck 9 for controlling both jaws 10 inward, the jaw 10 moves inward to move the driving motor 13 to rotate the rotational force. It is transmitted to the gear 17 engaged with the pinion 16 via the speed reducer 13 'to rotate the rotating shaft 19 at a slow speed, and the air chuck 9 above the jig block 4'. It will rotate concentric with the center point of.

At this time, when the rotating vane 2a reaches the right fiber sensor 5 detection position p2, the power of the motor is cut off by the right fiber sensor 5 and rotated until it is completely stopped by the motor inertia.

At this time, if the vane of the other side operates the left fiber sensor 6 due to inertia, the drive motor 13 is stopped by the electromagnetic brake (not shown) installed in the anode drive motor 13, and the vane is accurately positioned at the vane P3 position. Is positioned.

At this time, if it is not controlled due to the malfunction of the fiber sensor (5, 6) of both sides, if it continues to rotate, it is designed to cut off the motor power by the emergency switch 8 shown in Fig. It becomes a device.

After that, the air chuck jaw 10 is opened slowly at the same time as the motor brake operation by the positioning completion confirmation switch signal, and the motor is reversed to stop when the home position switch 7 is operated, thereby completing one cycle operation. .

The present invention constructed and operated as described above has a fiber sensor 5, 6 which is biased by a certain angle on both sides of the jig block while chucking and rotating by the jaw of the air chuck fixedly coupled to the shaft of the anode frame by the motor. In addition to the automatic assembly on the jig block is set to be suitable for the interlocking with), there is a special effect to perform the setting work quickly and almost completely prevent assembly defects due to the correct setting.

Claims (1)

In constructing an apparatus for accurately setting the frame of the anode on the jig block, the reflective fiber sensors 5 and 6 for detecting the anode vanes are mounted on both sides of the anode by a predetermined amount S, respectively, and the supporting members 21 are provided on both sides. It is supported by a bearing in the anode block (4 ') supported on the base plate and the housing 20 on the base plate, and connected to the reducer (13') on the drive motor (13) side through the lower gear (17). A rotary shaft 19 pivoting by engagement with the pinion 16 and an anode frame chucking jaw 10 on both sides and lower sides of the rotary shaft 19 are installed to have the same rotation center as the vertical center line of the anode block on the upper side of the rotary shaft. The frame phase automatic alignment device of the Marknetron anode, characterized in that it comprises a side return confirmation switch (7) and an emergency switch (8) having an air chuck (9).