KR920007312Y1 - Core block connecting device - Google Patents

Abstract

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Description

Core Block Bonding Device

1 is an exploded perspective view of the present invention.

Figure 2 is a plan view of the present invention coupled state.

3 is a side cross-sectional view of FIG.

4 is an enlarged part of the main part showing the track alignment progress of two core blocks using the present invention, (a) is an enlarged part of the main part when the initial core block is mounted, and (b) a core screw advances the core block to move the track. Enlarged diagram showing the state of coincidence, (c) shows enlarged view of the core block where the core block is moved too far forward and the track is shifted. An enlarged view of the main part showing the state.

Figure 5 shows a conventional core block bonding apparatus (a) is a plan view, (b) is a side view.

* Explanation of symbols for main parts of the drawings

6, 7: core block 6a, 7a: track

10: Mizo screw 12: Gear

13: lead screw 14: gear

19: auxiliary spring device 20: spring pressure control cap

The present invention relates to a device for joining two core blocks, which are one of the manufacturing processes of a magnetic recording video and audio head, and more particularly, to a core block bonding apparatus for quickly and precisely joining two core blocks.

(A) and (b) of FIG. 5 show a conventional core block bonding apparatus. Referring to the process of the conventional core block bonding apparatus, first, two core blocks 31 and 32 are vacuum-washed, and then the core bonding apparatus. The core block 31 is mounted on the 33 and the core block 32 is mounted next to the core block 31.

Next, the core block (32) is screwed into Moving within the pitch, the core blocks 31 and 32 are brought into close contact with the tightening screw 35, and the core blocks 32 are moved forward with the uncoated screws 34 to align the tracks of the two core blocks 31 and 32.

However, if the track is shifted by more than 4 μm, the core block 32 is dismantled and vacuum-cleaned as the first time, and then the core block 32 is mounted on the core joint device 33 again and repeatedly. Screw (34) The core block 32 is moved within the pitch, and the core block 32 is brought into close contact with the tightening screw 35, and at the same time, the core block 32 is moved forward with the uncoated screw 34 to make the two core blocks 31. Match the track of (32) and tighten the core blocks 31 and 32 with the tightening screw 35 to join the two core blocks 31 and 32 as instant adhesive.

However, if the tracks did not match, they had to repeat.

As described above, in the conventional core block bonding apparatus 33, the core block 32 is movable only in the forward direction of the uncoated screw 34, and backward movement is impossible, and the core blocks 31 and 32 are precisely bonded. As it is a necessary work, it is difficult to fit the track within the specification (less than 4㎛) without the operator's skill and sensitive hand work. The problem that the thin film of the core block is broken.

Therefore, the present invention was devised to solve the above-mentioned drawbacks, and the auxiliary spring device was installed on the opposite side of the screw to enable the forward movement as well as the backward movement of the core block to be joined only by adjusting the screw. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

That is, as shown in FIGS. 1 and 2 and 3, the fixing plate 8 is joined to the base 2 on which the tightening screw 8 and the rod 9 are installed, and the stepped base 3 on which the fixing bar 4 is attached. Fix it with (5) (5a).

After the two core blocks (6) (7) vacuum-cleaned are mounted on the stepped base (3), turn the tightening screw (8) to move the push rod (9) to bring the two core blocks (6) (7) into close contact. Let's do it.

The two core blocks (6) (7), which are in close contact with each other by the push rod (9), rotate the microscopic screws (10) arranged on one side of the fixed plate (5), and the core blocks (7) move forward, and then 10 is adjusted appropriately to match the tracks 6a and 7a of the two core blocks 6 and 7.

In such a common core bonding apparatus 1, the gear 12 is condensed in the micro screw 10 and the shaft 11 built in the said one side fixed plate 5.

In addition, a gear 14 arranged on the lead screw 13 is provided in front of the lead screw 13 to engage the gear 12 of the screw thread 10 with the gear 14 of the lead screw 13.

At this time, the gear 14 of the lead screw 13 is larger than the gear 12 of the screw 12, so that the rotation of the lead screw 13 and the gear 14 when the screw 12 of the screw 12 is rotated. Smaller, that is, the movement distance of the lead screw 13 is shortened to finely move the core block 7 mounted on the stepped base 3.

On the other hand, the auxiliary plate 15 having the cylinder 16 formed inside the other fixing plate 5a provided on the opposite side of the lead screw 13 is installed so that the spring 17 is built in the cylinder 16 and the supporting rod at the distal end thereof. A spring pressure adjusting cap 20 for adjusting the pressure of the spring 17 to the other side of the auxiliary spring device 19 to which the 18 is attached is installed on the other fixing plate 5a.

Referring to the effect of the present invention configured as described above are as follows.

First, the vacuum-cleaned core block 6 is placed on the stepped base 3 of the core bonding apparatus 1, and the track 6a of the core block 6 is placed on the holder 4 so as to face the opposite direction of the contact wall. The core block 6 is brought into close contact.

The vacuum-cleaned core block 7 is placed on the core block 6 mounted on the stepped base 3 so that the tracks 6a and 7a face each other and support one end of the core block 7. Close to the tip of the rod 18, the track 6a (7a) deviation between the two core blocks (6) (7) Place it within the pitch.

At this time, the adjustment of the initial tracks 6a, 7a misalignment between the two core blocks (6) (7) can be adjusted by the length of the support rod 18, so Adjustable by the deviation within the pitch.

When the two core blocks (6) (7) mounted on the stepped base (3) of the core bonding device (1) as described above, first turn the tightening screw (8) to be in close contact with the push rod (9) In the same state as in FIG. 4 (a), when the tracks 6a and 7a of the two core blocks 6 and 7 are displaced, that is, when the case as in (c) of FIG. 4 occurs, When the screw 12 is rotated in the opposite direction, the core block 7 is pushed backward by the auxiliary spring device 19 in which the spring 17 is laid when the lead screw 13 moves backward.

In this way, the core block 7 is moved backwards to align the tracks 6a and 7a of the two core blocks 6 and 7 and then the two core blocks 6 and 7 are tightly tightened with the tightening screw 8. When the two core blocks (6) (7) are bonded using the instantaneous adhesive, the work is completed.

On the other hand, the auxiliary spring device 19 serves to reverse the core block (7) and the spring pressure adjusting cap (20) to adjust the pressure of the spring (17) for pushing the core block (7) and the support rod (18) The initial position between the two core blocks (6) (7) is to adjust the track (6a) (7a) shift.

In addition, since the gear 14 of the lead screw 13 engaged with the tooth 12 is larger than the gear 12 of the screw 12, the movement distance is smaller when the screw 12 is rotated than the conventional one. 7a) Customization is possible.

As described above, the present invention can shorten the joining time of the two core blocks and shorten the frictional movement distance of the joint surfaces between the two core blocks, thereby reducing the defects of the joint surfaces due to friction, and also the accurate track between the two core blocks. It can be customized to prevent poor bonding and breakage of the core, etc. On the other hand, unskilled workers have the advantage that the core block can be bonded work.

Claims (1)

In the device for moving the core block 7 to the non-irradiated nail and joining the core block 7 and the core block 6, the gear 12 having a small pitch of gears built into the screw thread is engaged with the gear. Gear 14 is a large pitch pitch gear formed with a lead screw 13 is formed, the spring pressure control cap 20 located on the opposite side of the lead screw and the auxiliary spring device is coupled to the end of the support rod 18 is formed Including the 19, the core block (7) is in close contact between the lead screw 13 and the support rod 18, the track of the two core blocks (6), (7) without leaving the lead screw (13) Core block bonding apparatus characterized in that to fit.