DE3726496A1 - DAMPED MAGNETIC HEAD BEARING ARRANGEMENT - Google Patents

Abstract

Arm 200 carrying a magnetic head 202 for cooperation with a magnetic disc is swingable about hinge zones 222 and electrical connections to head 202 are by conductors 206 embedded in a flexible strip 208 adhesively bonded to the suspension arm 200. This gives a reduction in height and damps the vibration of the arm. Twisted conductors may be used (Fig. 2). Arm 200 may be a laminate of multiple stiffening layers to control pitch, roll and yaw. The flexible circuit may be looped (220) (Fig. 4) to minimise its effects on the gram load, or a hole provided therein. Adhesive and flexible strip materials are specified. <IMAGE>

Description

The present invention relates to an improved magnetic head carrier assembly and in particular on an arrangement with a flexible power supply between the head and the carrier cable.

Magnetic head support assemblies for radial access various data tracks on rotating magnetic disks used are subject to various forces by the spatial position of the transmission gap on the head to the read Detach data track. Undesirable radial and circumferential forces occur on when the heads are in close proximity to the rotating plate start and stop. Frictional resistance creates peripheral forces that  influence the operating behavior of the head. Yaw moments usually occur as secondary effects.

To get reasonable read and write parameters, the head gap is kept small, to 15 micro inches Or less.

U.S. Patent 3,931,641 to Watrous discloses a magnetic head support assembly shown being pliable against pitching movements around a longitudinal axis and rolling movements around an orthogonal Axis is, whereas stiffness and rigidity against radial, circumferential and yaw movements.

In U.S. Patent 4,200,684 to Janssen et al. becomes a head arrangement shown in which a journal-mounted stiffer Support bracket is steered by an offset spring that an offset damping and yielding accelerating Has an effect on the rigid support beam. That was done to dominate the elasticity of the support beam, which could lead to vibrations of the wearer the converter could be transmitted.

Other attempts to get desired roll and pitch movements enable and against it radial, circumferential and yaw movements to limit, U.S. Patents 4,167,765 of  Watrous and 43 99 476 from King a.

All magnetic head assemblies include a magnetic button one side. The other side is on the actuator connected. Electrical connections must made between the head and the actuator will. Individual fine wires are currently being used twisted and through a hollow flexible sleeve, which between the actuator and the head is passed through. The sleeve is with holding tab or Holding forks attached to the suspension bracket.

Such wire / sleeve connections make the suspension by using the sleeve stiffer. The pod will twisted to fit them in the holding forks and holding tabs which are then depressed to the sleeve to hold on. The fine wires in the sleeve with one 0.017 inch (432 micron) diameters could be cut or otherwise damaged. The height of the holding forks is also undesirable when looking at the plates want to stack. Uniformity of the operating parameters is difficult to reach.

An object of the present invention is electrical Connections between the actuator and the  Create magnetic head without wire / sleeve constructions to use. Wire / sleeve constructions are undesirable, because the wire by the inevitable and excessive handling and by squeezing into the holding forks and the Retaining flap tends to break. That is also necessary Solder the fine wires to an end plate. To shield were the individual fine wires of the wire / sleeve construction twisted. Such twisting is natural difficult to monitor, especially when wires are in a fine Sleeve must be inserted.

Another object of the invention is holding forks and to make holding tabs on support arms unnecessary.

Another item is an electrical connection to create between the actuator and the head which is also the natural vibration of the load bearing structure dampens.

The invention creates electrical connections between the actuator and the head, which in some Shapes have better shielding against radio frequencies than they are currently in wire / sleeve constructions being found.  

According to the invention, a magnetic head assembly comprises a suspension system with a flexible power supply that is held on the suspension by an adhesive. The The ends of the flexible power supply have open copper tracks, which are glued to the end plates of the shoe, which in turn are connected to the head and to the end plates of the carrier, which are connected to the main cable.

The open copper tracks are with the head and the end plates through glued wire, solder connections, conductive Epoxy resin or other suitable means for forming a electrical connection between the conductors connected.

The magnetic head assemblies of the invention, the flexible Use power leads are more reliable, have one built-in shielding and are cheaper to manufacture than the old magnetic head arrangements, the wire / sleeve constructions use. The magnetic head assemblies according to the invention cause a damping effect that depends on can be adapted to the application. The adhesive connection of the flexible power supply on the suspension can be changed become, so that parts of the flexible power supply a suspension arrangement do not touch directly. A little bow the flexible power supply can be close to the area of curvature  of the unloaded suspension bracket to be added to the Effect of the flexible power supply on the weight load to minimize the suspension bracket. This loop can be constructed to have a neutral effect to the spring constant.

The following is a detailed description of the invention given with particular reference to the drawings, in which represent:

Fig. 1 is a perspective view of a conventional Aufhängeträgeranordnung,

Fig. 2 is a perspective view of one embodiment of the invention using twisted wires and an adhesive,

Fig. 3 is a perspective view of the preferred embodiment of a hanger bracket with a flexible power supply line,

Fig. 4 is a side view of the carrier of Fig. 3 with a loop in the flexible power supply and

Fig. 5 is a cross section of the carrier of FIG. 3 along line 5-5.

Referring to Fig. 1, a conventional magnetic carrier assembly 10 is shown. Arrangement 10 comprises a sliding block 12 which is connected to fine insulated wires 14 which are guided through a polytetrafluoroethylene sleeve 16 . The sleeve 16 is held on the arm 18 by holding pliers 20 and holding tabs 22 . As previously noted, tongs and tabs are highly undesirable because they can damage the wires 14 and are relatively large, which limits the stacking of the plates.

The assembly 10 is also relatively difficult to manufacture because retaining tabs and tongs are included. Arrangements as shown in Fig. 1 usually have undesirable natural vibration properties. The industry generally needs suspension brackets that have their greatest damping properties in the 2000 Hertz range for the first order bending vibration. Although the wire / sleeve designs make some contribution to damping, assemblies 10 , as shown, are difficult to manufacture with the proper natural vibration properties.

The invention shown in FIGS. 2 to 5 enables suspension supports with very low contours. In addition, the invention enables damping without damage to performance.

Referring to FIG. 2, the carrier 100 is shown having various twisted wires 102 leading from the actuator (not shown) to a thin film slider or head 104 . The wires 102 are not held in place by tongs or tabs. Instead, the twisted wires 102 are attached to the suspension bracket 100 by a viscoelastic adhesive 106 . The adhesives can include silicone rubber, pressure sensitive adhesives and chemically curable polyurethanes such as. B. PR 1564 adhesive from Products Research and Chemical Corporation of Glendale California. Kalex adhesives from HV Hordman, Company of Belleville, New Jersey are suitable elastomeric adhesives. The wires 102 can be fastened along the entire length of the carrier 100 or they can be held in spaced spacing by the adhesive. The connection of the wires to the carrier by means of the adhesive layer or adhesive points makes holding pliers and holding tabs unnecessary and has a damping effect on the bending and torsional vibrations of the first and second order. The amplitude voltage required to excite the natural vibration is also increased by the adhesive that holds the wires.

The preferred embodiment of the invention is shown in FIGS. 3 to 5. According to the configuration in FIG. 2, the suspension support 200 according to the invention from FIGS . 3 to 5 makes holding tongs and holding tabs unnecessary. Electrical connections between the carrier arrangement and the sliding head 202 are created by the flexible power supply 204 .

The flexible power lead 204 includes copper conductors 206 that are insulated by a flexible film 208 . The flexible film 208 can be formed by a polyimide such as e.g. B. the polyimide film of the brand Kapton V or a polyester such. B. Mylar brand flexible polyester film, both from EI DuPont de Nemours Company of Wilmington, Delaware. The film layer is usually 1 to 3/1000 inches (25 to 76 microns) thick.

The leads 206 can be individual copper tracks or they can be formed by etching slots in a thin layer of copper, as is known in the art for making separate electrical conductors. As shown in Figure 5, the outline of flexible power lead 204 is very low, much lower than would be possible with wire / sleeve designs. Stacking plates and heads with suspension brackets according to the invention takes up much less space.

The flexible power lead 204 is attached to the bare suspension with the viscoelastic adhesive 210 . In general, any adhesive can be used that connects to the flexible power supply and has at least some elasticity after curing. Pressure sensitive adhesives, silicone rubber and polyurethane adhesives are all suitable. The chemically curable polyurethane, manufactured by Products Research and Chemical Corporation of Glendale, California under the designation PR 1564, cures to a flexible rubber that is insensitive to cold flow and has good adhesive and damping properties. The Kalex brand elastomeric adhesives from HV Hardman Company of Belleville, New Jersey are also useful for the purposes of this invention.

The adhesive 210 can be applied to the hanger bracket along the entire length of contact between the bracket and the flexible power supply. Optionally, the adhesive can be applied at spatial intervals in order to attach the flexible power supply to the suspension bracket. Since the adhesive itself causes damping, increased damping is achieved if the adhesive holds more surfaces of the flexible power supply and the carrier together.

The thickness of the adhesive layer 210 can vary according to its adhesive and damping properties. Typically, a 1 to 6/1000 inch (25 to 152 micron) layer of adhesive 210 is formed between the flexible power lead 204 and the hanger bracket.

The low outline of the suspension bracket according to the invention can be changed by changing the original suspension bracket, by reducing the edge height will. Optionally, the suspension bracket could be in Layered construction created from several stiffening layers to pitch, roll and yaw as needed to dominate. Since no holding tongs in the invention or holding tabs are required, suspension brackets are required no longer be made from punched metal parts.

As shown in FIG. 3, a loop 220 can be formed in the flexible power lead 204 in the bend region 222 of the unloaded suspension beam to minimize the effect of the flexible power lead on the weight load of the beam assembly. Another means to reduce the weight influence of the flexible power supply is to provide a hole in the area of curvature of the unloaded beam. The flexible power supply could then be routed either on one side or on both sides of the opening between the head 202 and the actuator.

Electrical connections between the conductive traces of the flexible power supply and the head or the actuator can by pressure connection under heat, Ultrasonic welding, soldering or conductive epoxy resins getting produced.

The following table shows the damping caused by the invention is achieved. The table compares bending and Torsional vibration frequencies and the amplitude voltage at Achieving the natural vibration in conventional suspension brackets without wires with suspension brackets with glued on Kapton V polyimide film. A 2 / 1000- Inch (50 micron) polyimide layer and a 4/1000 inch (102 micron) adhesive layer were along the entire length of the vibration-damped suspension bracket applied.  

As shown above, the inventive one Suspension bracket has a natural vibration below 2000 Hertz. The table also shows that the damped parts have a need higher input energy to achieve a given vibration range to reach. The one glued to the suspension bracket Wire also exhibits good damping properties conventional wire / sleeve constructions.

When considering the invention, it must be borne in mind that the Revelation serves only to clarify and that the Scope of the invention is determined from the appended claims becomes.

Claims (4)

1. magnetic head support arrangement, characterized by a longitudinal axis and consisting of a) a rigid support arm part, b) a spring element ( 200 ) which is connected to the support arm part and is formed with a stiffening deformation in the longitudinal direction and a rectangular bend at its free end, c ) a load beam attached to the spring element and d) a flexible power supply ( 204 ) for making an electrical connection from one end of the assembly to the other end of the assembly along the longitudinal axis, the flexible power supply having a plurality of conductors ( 206 ) contains, which are embedded in a thin, flexible, insulating plastic film ( 208 ), the film being adhesively connected to the load carrier and the rigid support arm part. 2. Arrangement according to claim 2, characterized in that the plastic film from the group of polyimides and polyesters is selected. 3. arrangement according to claim 1, characterized in that the adhesive from the group of polyurethanes and silicones is selected.   4. Arrangement according to claim 1, characterized in that the electrical connection from one end of the device to the other end of the device along the longitudinal axis consists of a plurality of insulated lines which are adhesively connected to the load carrier ( 202 ) and the rigid support arm part.