JPH0249500B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a magnetic head assembly for a magnetic disk device used as an external storage device in an information processing system.

[Technology background]

FIG. 1 is a diagram showing the entire structure of a magnetic head assembly for a magnetic disk, in which B is a plan view and A is a sectional view taken along the line A--I in FIG. Reference numeral 1 denotes a magnetic disk, which rotates in the direction of arrow _a1 , on which a magnetic head is disposed. The magnetic head has a structure in which a core 3 is attached to the end of a slider 2, and a coil 4 is wound around the core 3. By press-fitting a pair of claws 7a and 7b formed on the bridge 6 of the gimbal 5 made of a thin leaf spring into the groove 8 on the back of the slider and tightening them, and applying an adhesive, the magnetic head can be inserted through the gimbal 5. and is attached to the drive arm 9. Further, by pressing the dowel 11 at the center of the bridge 6 with the tip of the load arm 10, the magnetic head is pressed in the direction of arrow _a2 . Then, when the magnetic disk 1 rotates in the direction of arrow _a1 , the slider 2 floats by a minute amount of 1 μm or less against the pressing force in the direction of arrow _a2 due to the aerodynamic force that enters from the inclined surface 12 at the tip of the slider. In this floating state, information is read and written onto the magnetic disk 1 by the magnetic gap 13.

[Prior art and its problems]

By the way, manufacturing of such a magnetic head assembly for a magnetic disk has conventionally been carried out through the following steps. FIG. 2B is an enlarged plan view of the gimbal, and FIG. In the illustrated example, two pairs of claws 7a and 7b are provided on both sides of the dowel 11, and each claw is pre-bent as shown in A in advance. FIG. 3 is a diagram showing the process of connecting the gimbal 5 and the slider 2. First, the pawls 7a and 7b, which have been pre-bent as shown in FIG. 2, are press-fitted into the grooves 8 on the back surface of the slider 2 as shown in A and tightened. When the claws 7a, 7b, which have been pre-bent in advance, are press-fitted into the groove 8, the claws 7a, 7b are further bent somewhat on the inner wall of the groove 8, but at this time, the center of the bridge 6 is positioned exactly at the center of the groove 8. Therefore, center-to-center alignment is easy. However, like A, the claws 7a,
At 7b, the inner wall of the groove 8 is subjected to forces in the directions of arrows _{a3 and a3} , and the slider 2 is deformed by a dimension h as shown in b, and the floating described in FIG. 1 is no longer performed smoothly. In order to prevent this, the bottom surface of the bridge 6 and the bottom surface of the groove 8 are bonded in advance with an adhesive and cured, and the bridge 6 and the bottom surface of the groove 8 are temporarily fixed, and then the claws 7a and 7b are attached as shown in C. is raised manually to return the deformed slider 2 to its original state. However, when the claws 7a and 7b are separated from the side wall of the groove 8, they become weak against horizontal forces, so the claws 7a and 7b raised as shown in D are fixed to the side wall of the groove with resin 14.

However, manually raising the claws 7a and 7b in such a narrow concave groove 8 with a width of 2 to 3 mm is troublesome and difficult to automate. Furthermore, a highly viscous material such as Araldite is used to harden the tip of the nail, but the process of hardening only the tip of the nail with a highly viscous resin is also not compatible with automation.

[Purpose of the invention]

SUMMARY OF THE INVENTION An object of the present invention is to eliminate such problems in manufacturing conventional magnetic head assemblies and to facilitate automation.

[Structure of the invention]

The technical means of the present invention taken to achieve this purpose is to abut the tips of a pair of claws formed symmetrically on the bridge of the gimbal on the side wall of a groove formed on the back surface of the slider of the magnetic head. It is a magnetic head assembly in which the bridge of the gimbal is glued and fixed to the bottom of the concave groove, and the width of the base side of the claw is adjusted so that the slider deforms when it comes into contact with the concave groove. The width is the same as or narrower than the width of the tip side so that the width does not exceed the width of the slider.

In addition, to manufacture such a magnetic head assembly, the tips of a pair of claws formed symmetrically on the bridge of the gimbal are brought into contact with the side walls of a groove formed on the back surface of the slider of the magnetic head. A method for manufacturing a magnetic head assembly in which centering is performed and a gimbal is glued and fixed to the bottom of a recess, and the width of the base side of the claw is set to such an extent that the slider does not deform when the claw comes into contact with the groove. After supplying resin to the bottom of the groove with a dispenser in advance, the back of the bridge part of the gimbal is pressed and glued to the bottom of the groove, and the tip of the claw is kept in pressure contact with the inner wall of the groove. It is being harvested.

[Embodiments of the invention]

Next, how the magnetic head assembly and method of manufacturing the same according to the present invention are actually implemented will be explained using examples. FIG. 4 is a plan view of a gimbal applied to the magnetic head assembly according to the present invention. Also in the present invention, the bridge 6 has a pair of claws 15a, 15b.
However, the claws 15a and 15b of the present invention are
Both the width d ₁ at the root and the width d ₂ at the tip are smaller than those of the conventional claws 7a and 7b. Also, as before, d ₁ >
Instead of setting d ₂ , set d ₁ < d ₂ or d ₁ = d ₂ . Mainly the width d ₁ of the pre-bent portion at the base of the claws 15a, 15b
The deforming force exerted by the claws 15a and 15b on the inner wall of the groove is determined by this, but in the present invention, the dimension _d1 of the preliminary bending portion at the base is made sufficiently small so as not to cause deformation to the slider 2. .

FIG. 5 is a diagram showing a process of manufacturing a magnetic head assembly using this gimbal 5. First, as shown in A, using a dispenser 16, adhesive resin 17 such as Araldite is supplied to the bottom surface of groove 8. The bottom of the groove 8 has a claw 7 as shown in Fig. 3 D.
Unlike the tips of a and 7b, the area is large, so
The adhesive resin can be automatically supplied by the dispenser 16 instead of manually.

After supplying a predetermined amount of resin in this manner, the bridge 6 of the gimbal 5 is inserted and press-fitted into the groove 8 as shown in B, resulting in the state shown in C. That is, the claws 15a, 1
The tip of 5b comes into pressure contact with the inner wall of the groove 8, and the bridge 6
is positioned exactly in the center of the groove 8, and centering is performed. When the resin 17 is stretched between the bridge 6 and the bottom of the groove and hardened, the manufacturing of the magnetic head assembly is completed and the state shown in (d) is reached. FIG. 6 shows the completed state as a cross-section taken at - in FIG. 4. Between the bridge 6 and the bottom of the groove, there is an adhesive film 17 that is stretched over a wide area between the bottom of the bridge 6 and the bottom of the groove.
In addition to a, adhesive 19 attached to the corner between both sides of the bridge 6 and the bottom of the groove, adhesive 20 attached to the corner between the protrusions 18a, 18b on both sides of the dowel 11 and the bottom of the groove, the protrusion 18a, 18b and claws 15a, 15b
It is firmly fixed by the adhesive attached to the corner between the side surfaces 21 on both sides and the bottom of the groove, and the adhesive 22 attached to the corner between the bottom of the pre-bent portion of the base of the claws 15a and 15b and the bottom of the groove. Therefore, the adhesive strength is sufficient even if the tip of the nail is not glued as in the conventional method.

The magnetic head assembly of the present invention has claws 15a, 15.
Since the claws 15a and 15b are not raised, the tips of the claws 15a and 15b remain in pressure contact with the inner wall of the groove 8, and the third
As in the case in Figure A, forces in the directions of arrows a ₃ and a ₃ are generated. However, as mentioned above, the claws 15a, 1
The dimension d ₁ of the preliminary bending part at the base of 5b is the same as that of slider 2.
is small enough so as not to deform it. Therefore, the force in the directions of arrows a ₃ and a ₃ is the minimum spring force necessary to align the centers of the bridge 6 of the gimbal and the groove 8, and there is no risk of deforming the slider 2. In order to weaken the spring force of the pre-bent parts at the base of the claws 15a and 15b, it is possible to reduce the thickness of the gimbal plate, but if the extremely thin plate material, which is several tens of micrometers, is made even thinner, the magnetic head will not be able to seek. Although the gimbal is likely to resonate due to the vibrations caused when the gimbal is moved, there is no need to make the gimbal thinner, so there is no problem with vibration resistance.

In this way, by setting the dimension _d1 of the pre-bent portions of the bases of the claws 15a and 15b to the minimum dimension necessary for centering the bridge 6 and the groove 8, there is no need to raise the claws. Eliminates detailed and troublesome work,
Improves work efficiency. In addition, there is no need to apply a small amount of resin to the tips of the claws 7a and 7b for bonding, and it is sufficient to supply the resin to the wide surface of the groove 8 in advance, so the dispenser 16 is used to automatically supply the resin. It is possible to do this. Therefore, there are no steps that impede automation, and the magnetic head assembly can be automated.

〔Effect of the invention〕

As described above, according to the magnetic head assembly and manufacturing method thereof of the present invention, the claws of the gimbal are made thinner,
In addition, there is no claw raising, and a method is adopted in which the bridge of the gimbal is bonded by supplying resin only to the bottom of the groove. Therefore, manufacturing of the magnetic head assembly can be fully automated, greatly improving work efficiency.

[Brief explanation of the drawing]

Fig. 1 is a cross-sectional view and a plan view showing the entire structure of the magnetic head assembly, Fig. 2 is a cross-sectional view and a plan view showing a conventional gimbal, and Fig. 3 is a process diagram showing a conventional manufacturing method of the magnetic head assembly. , FIG. 4 is a plan view of a gimbal used in the magnetic head assembly according to the present invention, and FIG.
The drawings are process diagrams showing an embodiment of the method for manufacturing a magnetic head assembly according to the present invention, and FIG. 6 is an enlarged sectional view showing the adhesive portion. In the figure, 2 is a slider, 5 is a gimbal, and 6 is a slider.
is a bridge, 7a and 7b are claws, 8 is a groove, 15
a and 15b indicate nails, and 17 indicates resin, respectively.

Claims (1)

[Scope of Claims] 1. Centering is performed by bringing the tips of a pair of claws formed axisymmetrically on the bridge of the gimbal into contact with the side wall of a groove formed on the back surface of the slider of the magnetic head, and A magnetic head assembly consisting of the bridge of the gimbal bonded and fixed to the bottom surface, and the width of the proximal side of the claw is set to a width such that the slider does not deform when it comes into contact with the groove. 1. A magnetic head assembly characterized in that the width is the same as or narrower than that of the gimbal, and the back surface of the bridge portion of the gimbal is bonded to the bottom surface of the concave groove of the slider. 2 Centering is performed by touching the tips of a pair of claws formed axisymmetrically to the bridge of the gimbal on the side wall of the groove formed on the back of the slider of the magnetic head, and the gimbal is fixed by gluing it to the bottom of the recess. A method for manufacturing a magnetic head assembly comprising: narrowing the width of the base side of the pawl to such an extent that the slider does not deform when the pawl contacts the concave groove; After supplying the resin, the back surface of the bridge part of the gimbal is pressed and bonded to the bottom surface of the groove, and the tip of the claw is kept in pressure contact with the inner wall of the groove.