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Publication numberUS3401446 A
Publication typeGrant
Publication dateSep 17, 1968
Filing dateApr 7, 1966
Priority dateApr 7, 1966
Publication numberUS 3401446 A, US 3401446A, US-A-3401446, US3401446 A, US3401446A
InventorsRobert L Armstrong, Edward G Obeda
Original AssigneeBranson Instr
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Method for delaminating articles
US 3401446 A
Abstract  available in
Previous page
Next page
Claims  available in
Description  (OCR text may contain errors)

Sept. 17, 1968 E. G. OBEDA ET AL 3,401,446


Q FIG. 3

FIG. 2


EDWARD G- OBEDA ROBERT L.ARMSTRONG Em AM United States Patent 3,401,446 METHOD FOR DELAMINATING ARTICLES Edward G. Obeda, Brookfield, and Robert L. Armstrong, New Milford, Conn., assignors to Branson Instruments, Inc., Stamford, Conn., a corporation of Delaware Filed Apr. 7, 1966, Ser. No. 540,869 7 Claims. (Cl. 29-427) This invention concerns a method for separating or delaminating bonded articles and, more specifically, refers to a method for delaminating relatively thin articles which are held temporarily in stack form.

Quite specifically, the present invention concerns a method for separating articles, such as circular disks and washers, which are arranged in stack form, possibly under compression, and are subjected to treatment, for instance heat treatment, and then must be separated from one another.

A typical example of this type concerns the manufacture of standard steel washers which are machined or stamped from raw stock material, then bolted together to form a stack, and heat treated which includes oil quenching. Under the influence of the heat, the oil used for quenching decomposes and bonds the washers to one another. Subsequently, it is necessary to separate the individual washers from the stack, a procedure which heretofore has proven to be rather cumbersome and time consuming. Typically, the individual washers are separated by a light pounding action, being careful not to damage the individual washer edges, or using a knife edge and separating each washer consecutively by a prying action. In this manual manner it has been possible to separate only about a thousand washers per hour.

One of the important objects of this invention is, therefore, the provision of a new and improved method for delaminating elements from a stack, avoiding one or more of the shortcomings and limitations of the prior art.

Another important object of this invention is the provision of a new and improved method for delaminating elements in a more expeditious and convenient manner.

Another important object of this invention is the provision of an improved procedure for delaminating elements using sonic vibrations.

A further important object of this invention is the provision of an improved method and arrangement for delaminating plates and disks which are bonded temporarily to each other as the result of a preceding treatment.

Further and still other objects of this invention will be more clearly apparent by reference to the following description, when taken in conjunction with the accompanying drawings, in which:

FIGURE 1 is a schematic view of the typical arrangement for practicing the method described herein;

FIGURE 2 is a schematic illustration of the ultrasonic apparatus for applying sonic energy to the stack of elements, and

FIGURE 3 is a view along lines 33 in FIGURE 2.

The invention, as indicated heretofore, concerns typically the method for separating plates and disks, for instance steel washers, after heat treatment. The washers are generally bolted together in stack form by means of a central bolt and heat treated which includes an oil quench. Under the influence of heat, the oil confined between the sides of the washers decomposes and the tacky residue bonds the washers to one another. After the removal of the central bolt the Washers still adhere to one another and must be separated individually. Separation or prying loose of individual washers is done by means of light pound-ing, a knife edge or other manual means which are not satisfactory. Also, in many instances, this haphazard manual operation damages the outer edges of 3,401,446 Patented Sept. 17, 1968 "ice washers and a certain number thereof no longer meets rigid inspection standards.

Tests have shown that delamination of such elements can be accomplished quite readily by the use of sonic energy, such as is provided by the apparatus schematically illustrated in FIGURE 2 wherein numeral 10 refers to a high frequency generator which provides electrical energy at approximately 20 kc. per second via a cable 11 to an electro-acoustic converter unit 12. The converter 12 converts the electrical energy supplied by means of a piezoelectric element or a magnetostrictive transducer to mechanical vibrations as is Well known to those skilled in the art. The converter unit 12 is fitted with an output horn 14 which amplifies the mechanical vibrations.

A typical generator 10 with converter 12 and a horn 14 coupled thereto may be purchased commercially from Branson Sonic Power, a Division of Branson Instruments, Inc., Danbury, Connecticut, under Model No. J-17V or J-32. In the typical case, the horn 14 is a bar horn, having a rectangular frontal surface 15 as seen in FIGURES 2 and 3, the frontal surface being 2 inches long by inch wide.

The ultrasonic unit, when energized, provides at the frontal surface 15 longitudinal vibrations at 20,000 cycles per second and an excursion of approximately 0.002 inch. One important characteristic of this vibration to be noted is the inherently high acceleration, it being in the order of 1,000 g. and more.

When during tests the vibrating frontal surface 15 of the horn 14 was first applied to the outside edge 21 of a stack of washers 20, FIGURE 1, delamination of the washers occurred in groups of two or three, the washers with such a group remaining bonded to one another. Using the same arrangement on the face of the stack no significant improvements were achieved. However, a vast improvement was discovered by arranging the stack of washers 20 on an inclined plane 22 and contacting the topmost washer with the horn 14 at a location along the rim of the central aperture as shown in FIGURE 1, the horn being held vertically and the frontal surface 15 being disposed generally along a radial axis of the washer. Under these conditions the topmost washer always detached itself from the stack and this process could be repeated until each washer was delaminated singly from the stack.

It is believed that this surprising result can be attribuuted to the fact that the energy imparted to the topmost washer applies a shear force to the bond of the juxtaposed washers, such shear force being parallel to the juxtaposed sides. The relatively high acceleration inherent in the vibrations weakens the adhesive bond and ultimately breaks the adhesion, causing the topmost washer to slide from the stack so that the process can be repeated with the next washer, now in the topmost position. The frequency of twenty kilocycles per second stated is convenient since the noise is in the ultrasonic or inaudible frequency range, but no particular limitation shall be implied.

The above described arrangement was tested with washers ranging from 2 inch outside diameter to 5 inch outside diameter and having a thickness ranging from 0.030 inch to 0.100 inch. Steel Washers could be separated at the rate of 15,000 pieces per hour.

It will be apparent, therefore, that the arrangement described and illustrated in FIGURE 1 is very convenient for separating elements which are bonded to each other by a separable bond, and that the unsatisfactory means and methods used heretofore are avoided.

While there has been described and illustrated a preferred embodiment of the present invention, it Will be apparent to those skilled in the art that various changes and modifications may be made without deviating from the intent and spirit of this invention, which shall be limited only by the scope of the appended claims.

What is claimed is:

1. The method for delaminating elements which are bonded together along parallel sides in a stack comprising: contacting a selected element which is to be separated from the stack with an instrumentality vibrating at least at 1000 cycles per second, the peak acceleration of said vibrations applied to said selected element in "a manner to develop a force having a shear component and being of sufircient magnitude to weaken and break the bond between said selected element and the other elements remainin g in said stack.

2. The method for delaminating elements as set forth in claim 1 wherein said instrumentalty is driven in the ultrasonic frequency range.

3. The method for delaminating elements as set forth in claim 1 wherein said instrumentality is an acoustic horn coupled to an electro-acoustic converter.

4. The method for delaminating elements as set forth in claim 1 wherein said elements are fiat metal washers.

5. The method for delaminating flat Washer-like apertured elements which are bonded together in a stack comprising -the steps of:

supporting said stack of elements on an inclined surface;

contacting the end element to be separated from said stack with a sonically vibrating instrumentality, such contact being made substantially at a location near the edge of said aperture and in a manner to cause a shear force in the bond holding said end element to said stack, and

said instrumentality vibrating at an ultrasonic frequency and with a peak acceleration sufficient to weaken and break the bond which holds said end element to said stack.

6. The method for delaminating elements as set forth in claim 5 wherein said instrumentality is applied consecutively to the element which constitutes one of the two end elements in said stack.

7. The method for delaminating as set forth in claim 5 wherein said stack of elements is supported so that the fiat surface of one of the end elements rests on said inclined surface, the longitudinal axis through said stack intersects the plane of the inclined surface, and said instrumentality is brought into contact with the other end element.

References Cited UNITED STATES PATENTS 2,692,774 10/1954 Sidman 271-18 2,742,076 4/1956 Klein 294-27 2,948,059 8/1960 Bodine 29-427 3,240,203 3/1966 Dye 125-24 CHARLIE T. MOON, Primary Examiner.

Patent Citations
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US2692774 *Jul 3, 1951Oct 26, 1954American Can CoBlank feeding mechanism with breaker unit
US2742076 *Jan 28, 1952Apr 17, 1956Douglas Aircraft Co IncMethod of stretching tapered sheets
US2948059 *Jul 12, 1957Aug 9, 1960Bodine Jr Albert GSonic system for unscrewing threaded pipe joints
US3240203 *Jun 13, 1963Mar 15, 1966Dye Charles HMethod of delaminating mica crystals with sonic vibration
Referenced by
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US3533887 *Oct 21, 1968Oct 13, 1970Bunker Hill CoRapping device that alternately impacts cathode sheets along the bottom edge during hydraulic stripping operations
US3538588 *Apr 1, 1969Nov 10, 1970Olin CorpMethod for reclaiming composite metal scrap
US3538589 *Apr 1, 1969Nov 10, 1970Olin CorpMethod for reclaiming composite metal scrap
US3657033 *Mar 26, 1969Apr 18, 1972Ultrasonic SystemsMethod and apparatus for continuous cutting and joining of thermoplastic sheet material
US3719543 *Sep 3, 1968Mar 6, 1973A HarrisElectroacoustic means for separation of glued joints
US4248232 *Sep 12, 1978Feb 3, 1981Eckart EngelbrechtMethod of dissolving the bond between interconnected components
US4508583 *May 23, 1984Apr 2, 1985Hughes Tool CompanyMethod of reclaiming electric motor laminations
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US4798646 *Nov 12, 1986Jan 17, 1989Somar CorporationFilm peeling apparatus having film end detector
US4959895 *Oct 13, 1989Oct 2, 1990Branson Ultrasonics CorporationMethod and apparatus for separating monofilaments forming a strand
US5167619 *May 25, 1990Dec 1, 1992Sonokineticss GroupApparatus and method for removal of cement from bone cavities
US5176677 *Nov 17, 1989Jan 5, 1993Sonokinetics GroupEndoscopic ultrasonic rotary electro-cauterizing aspirator
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US8702904 *Feb 6, 2012Apr 22, 2014Branson Ultrasonics CorporationMethod and apparatus for separating laminations
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U.S. Classification29/426.5, 29/426.1, 29/238, 271/18, 156/754, 156/705
International ClassificationC21D9/46
Cooperative ClassificationC21D9/46
European ClassificationC21D9/46