US3623276A - Multicellular lapping head - Google Patents

Abstract

A GRINDING OR LAPPING HEAD FOR PROVIDING METAL WORKPIECES WITH SPECULAR SURFACE FISHES IS DISCLOSED. SUCH A LAPPING HEAD INCLUDES A GRINDING MEMBER HAVING A GENERALLY ANNULAR SHAPE AND A SUPPORTING OR RETAINING BASE PLATE ATOP WHICH THE GRINDING MEMBER IS MOUNTED. THE GRINDING MEMBER COMPRISES A HONEYCOMB OR CELLULAR CORE EMBEDDED IN A RIGID FOAM MATERIAL WHICH SERVES AS A CARRIER MEDIUM FOR A PARTICULATE ABRASIVE SUBSTANCE.

Description

NOV. 30, W, C, TW|GG 3,623,276

MULTICELLULAR LAPPING HEAD Filed March 5, 1970 i l y '75 l i 1L Ir l i z' I ff) /NVi 'UR f2.7?. WM m,

Nov. 30, 1971 w. c. TWIGG 3,623,276 ULTICELLULAR LAPPING HEAD United States Patent O U.S. Cl. 51-209 12 Claims ABSTRACT OF THE DISCLOSURE A grinding or lapping head for providing metal workpieces with specular surface finishes is disclosed. Such a lapping head includes a grinding member having a generally annular shape and a supporting or retaining base plate atop which the grinding member is mounted. The grinding member comprises a honeycomb or cellular core embedded in a rigid foam material which serves as a carrier medium for a particulate abrasive substance.

BACKGROUND OF THE INVENTION (l) Field of the invention This invention generally relates to grinding or lapping heads. More specifically, the present invention concerns grinding or lapping heads which may be used to provide solid workpieces with a specular surface -nish that satisties exacting planimetrie tolerances of atness.

(2) Description of the prior art The rapid advances of present day technology have created a new and significantly more exacting requirement for techniques and devices which may be used to provide metal workpieces with specular surface finishes. As an example, the computer industry is presently employing disc shaped memorys for the magnetic recording of information. Such information may frequently be in the form of bits Generally speaking, the amount of information, or the number of bits, that may be recorded on a memory disc is a function of the size of the disc and/or the allowable bit density. One of the factors controlling the allowable bit density is the planimetrie quality or linish given to the surface of a metal disc substrate used in the fabrication of memory discs. The atter the surface of the disc substrate can be made, the higher the allowable bit density will be for a memory disc. Surface finish tolerances of between 2.8 to 3.6 micro-inches is exemplary of present demands.

Another factor that is critical in the preparation of disc substrates is the amount of slope given to a disc at the edges thereof. It is preferred that this slope, or what is Commonly referred to as roll-off, be minimized as much as possible. Present disc substrate specifications require that this roll-off not exceed seventy-five millionths. Demands for amounts of roll-off not exceeding thirty-five millionths are expected in the near future.

While the prior art is replete with innumerable types of lapping heads having a variety of different designs, few, if any, of the prior art devices are known to be consistently capable of producing surface finishes meeting present demands.

One such prior art lapping head that has produced inconsistent results, and has been used with limited success to date, includes an annular grinding head of rigid foam material which serves as a carrier medium for an abrasive substance. The lapping head is mounted on a rotating armature and applied to the surface of a workpiece to be finished. The inconsistent results achieved with this prior art lapping head have been found to be derivative of the undesirable and excessive amount of 3,623,276 Patented Nov. 30, 1971 Mice ilexure or sidal deliection of the grinding surface of the lapping head. This flexure tends to produce surface iinishes having contours exceeding the necessary planimetrie tolerances. An unacceptable amount of roll-off is also provided at the edge portions of a surface by such prior art devices.

It is therefore the intention of the present invention to provide a lapping head that is capable of providing a workpiece With a specular surface finish that meets or betters present day planimetrie tolerances and which causes substantially reduced amounts of roll-off.

SUMMARY yOF THE INVENTION Briefly described, the present invention involves a lapping head that may be used to provide metal workpieces with specular surface finishes that meet exacting planimetric tolerances in flatness and which produce substantially reduced amounts of roll-off.

More particularly, this invention involves a multi-cellular lapping head including a grinding member of rigid foam material which serves as a carrier medium for a particulate abrasive material. A honeycomb or cellular core, generally having the configuration of the grinding member, is embedded in the rigid foam material. The grinding member may be securely mounted atop a base plate of suitable design.

The objects and many attendant advantages of this invention will be more readily appreciated as the same becomes better understood by reference to the following detailed description which is to be considered in connection with the accompanying drawings wherein like reference symbols designate like parts throughout the figures thereof.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram illustrating a top plan view of a lapping head, in accordance with the present invention.

FIG. 2 is a schematic diagram illustrating a side crosssectional view of a lapping head in accordance with the present invention.

FIG. 3 is a schematic diagram illustrating an expanded, fragmented, side cross-sectional view of a portion of the present invention.

FIG. 4 is an isometric diagram illustrating an expanded, fragmented, perspective view of a cellular core that may be used to form the present invention wherein a limited number of the multiplicity of cells included in the core are .lled with rigid foam material for purposes of discussion.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Referring to FIG-S. l and 2, a lapping head, in accordance with the present invention, includes a grinding member 10 having a contact area 12 which is placed in physical contact with a surface of a workpiece to be finished, A honeycomb or cellular core 14 comprising a multiplicity of adjacent, vertically-oriented, elongate cells or pockets is incorporated in the body of the grinding member 10.

A base plate 16 is employed as a supporting mount for the grinding member 10. A plurality of anchoring devices 18, which may be screws, bolts, or the like, are employed to securely retain the grinding member 10 on the base plate 16 by having the heads 20 of the anchoring devices 18 embedding in the body of the grinding member 10.

The base plate 16 may be disk-shaped to generally conform to the illustrated annular configuration of the grinding member 10. A center aperture 22 is provided to enable the lapping head to be securely mounted on, for example, a rotatable armature of a motor which is used to revolve the lapping head in a conventional manner.

It is to be noted that although the grinding member has been illustrated and described as having an annular configuration, that any other configuration may be used.

The body of the grinding member may consist of any rigid lfoam material which will serve as a carrier medium for a particulate abrasive material that is to be uniformly distributed throughout the rigid foam material.

Any of the presently available rigid foam materials may be employed. It has been found, however, that a pourable, integral skin, rigid foam material having a closed cell polymeric structure and which is capable of being compounded to provide a density which may vary from four to twenty-five pounds per cubic foot, is particularly acceptable. A presently available industrial type of foam material described as being of the polyol-.polyisocyanate type is an example of such a particularly acceptable material.

The abrasive material is uniformly distributed or interspersed throughout the body of the grinding member 10 by being encapsulated in the modules formed by each of the closed cells of the foam material. A particulate abrasive in either powder or relatively larger crystalline form may be used, the specific form used being determined by the desired abrasive quality. Any of the readily available abrasive materials, among which are the carbides of silicon and boron, and Zircon, may be used.

Although specific materials have been suggested in the above discussion, it is to be understood that these suggestions are considered to be exemplary and not limitations, and that the actual materials used in the construction of a lapping head according to the present invention should be selected after consideration of the degree of resistance offered to cutting oils or like mediums, necessary abrasive qualities, the amount of heat generated by friction upon Contact of the grinding area 12 with a workpiece during a grinding or lapping operation, and the centrifugal forces developed by the high-speed revolution of the lapping head in operation.

Referring to FIGS. 3 and 4, the honeycomb or cellular core 14 may be composed of either a metallic or nonmetallic material. Preferably, the material used should have the qualities of resistance to cutting oils, nonabrasiveness, and resistance to heat which is developed in the use of the lapping head. The multiplicity of adjacent elongate cells or pockets 24 provided by the cellular case 14 should be vertically oriented or, otherwise stated, orthogonally situated with respect to the plane of the grinding area 12.

The rigid foam material used to form the body of the grinding member 10 is allowed to completely occupy each of the cells 24 such that the cellular core 14 is in intimate contact with the rigid foam material.

=A characteristic of rigid foam materials, suggested for use in the fabrication of the present invention, is that an integral skin of greater hardness than interior or centrally enclosed portions of the foam body is produced when such foam material is allowed to foam or expand in a mold. It is believed that such a skin is developed by reason of the exothermal chemical reaction which takes place in the foaming and/or the crushing of the closed cells forming the polymeric structure and abutting the hard inflexible walls of the mold. The embedding of a honeycomb or cellular core 14 in the fabrication of the grinding member 10 produces a similar result with respect to each of the elongate open-ended cells 24 forming the cellular core 14. Consequently, the rigid foam material occupying the respective cells 24 comprise a hard integral skin 26, adjacent the walls of the cellular core 14, which skin 26 surrounds a relatively softer, lower density, but yet rigid, central portion 28. The development of integral skins 26 with respect to each cell 24 effectively creates a grinding area 12 having gradients of hardness across the surface 4 thereof. Otherwise considered, each segment of foam material contained by the walls of the cellular core 14 forms a modular grinding surface or area.

Due to the resulting gradients of hardness and/or the individual adjacent modular grinding surface effect, the undesirable sidal deflection or flexure of prior art lapping heads is effectively eliminated. As a consequence, specular surface finishes equaling or |bettering present planimetrie tolerances of flatness are readily provided by using the lapping head of the present invention. Additionally, substantially decreased amounts of roll-off have been realized by using the present invention. Exemplary of the much improved results able to be accomplished with the present invention, are measured surface finishes having tolerances of between 2.2 to 2.4 micro-inches and measured reductions in roll-off or sloping, to between 10 to 15 millionths at the edges of a surface.

The cellular core 14, which is substantially co-extensive with the rigid foam material forming the grinding member 10, may be of either a metallic or non-metallic material. Where a metallic material is used, it is preferred that such material be a soft metal, for example, aluminum, to avoid scoring of a workpiece. The respective cells 24 may be of any desired size, the main requirement being that the foam material be able to flow or expand upwards through each of the cells 24.

From the foregoing description, it is now clear that the use of the lapping head of the present invention enables the realization o-f specular surface finishes that are significantly smoother than finishes able to be produced using prior art devices.

While a preferred embodiment of the present invention has been described hereinabove, it is intended that all matter contained in the above description and shown in the accompanying drawings be interpreted as illustrative and not in a limiting sense and that all modifications, constructions and arrangements which fall Within the scope and spirit of the present invention may be made.

What is claimed is:

1. A lapping head for providing workpieces with specular surface finishes, said lapping head comprising:

a grinding member formed with a rigid foam material which is configured to provide a planar grinding surface, said rigid foam material serving as a carrier medium throughout which a particulate abrasive material is distributed; and

a cellular core embedded in said rigid foam material,

said cellular core including Walls forming a multiplicity of adj acently positioned open-ended cells each having a longitudinal axis that is parallel to the axis of all other cells and orthogonal with respect to said planar grinding surface.

2. The apparatus defined by claim 1 wherein said rigid foam material fully occupies each of said multiplicity of adjacently positioned open-ended cells.

3. The apparatus defined by claim 2 wherein said rigid foam material, occupying each of said multiplicity of adjacently positioned open-ended cells, includes an integrally formed skin portion abutting said Walls of said cellular core and a central portion encompassed by said skin portion, said central portion having a structural consistency that is softer and less dense than the structural consistency of said skin portion.

4. The apparatus defined by claim 1 further including a fiat base plate for securely supporting said grinding member, said base plate being adapted to be revolved about an axis extending through a center point thereof and in a direction orthogonal to a plane defined by the major dimensions of said base plate.

5. The apparatus defined by claim 1 wherein said rigid foam material is of a type having a closed cell polymeric structure and which will provide an integral skin having a hardness and density that is greater than internally sitd uated portions.

6. The apparatus defined by claim 1 wherein said grinding member is shaped to have an annular configuration, said planar grinding surface being situated in a radial plane.

7. The apparatus defined by claim 1 wherein said planar grinding surface includes a multiplicity of adjacent modular grinding areas, each said grinding area having a peripheral section and a central section enclosed by said peripheral section, said central section having a hardness and density that is lesser than the hardness and density of said peripheral section.

8. The apparatus defined by claim 7 wherein said rigid foam material fully occupies each of said multiplicity of adjacently positioned open-ended cells.

9. The apparatus defined by claim 8 wherein said rigid foam material, occupying each of said multiplicity of adjacently positioned open-ended cells, includes an integrally formed skin portion abutting said walls of said cellular core and a central portion encompassed by said skin portion, said central portion having a structural consistency that is softer and less dense Ithan the structural consistency of said skin portion.

10. The apparatus defined by claim 9 wherein said grinding member is shaped to have an annular configuration, said planar grinding surface being situated in a radial plane.

11. The apparatus defined by claim 1 wherein said cellular core is a metallic material.

12. The apparatus defined by claim 1 wherein said cellular core is a non-metallic material.

References Cited UNITED STATES PATENTS 3,201,904 8/1965 Evans et al. 51--35-8 3,522,680 8/1970 Sarofeen 51-395 X OTHELL M. SIMPSON, Primary Examiner U.S. Cl. X.R. 51-358, 394

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