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Publication numberUS1871492 A
Publication typeGrant
Publication dateAug 16, 1932
Filing dateMar 10, 1927
Priority dateMar 10, 1927
Publication numberUS 1871492 A, US 1871492A, US-A-1871492, US1871492 A, US1871492A
InventorsRobert A Brennecke
Original AssigneeRobert A Brennecke
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Method of forming molded articles
US 1871492 A
Abstract  available in
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Claims  available in
Description  (OCR text may contain errors)

Aug. 16, 1932. R. A. BRENNECKE METHOD OF FORMING MOLDED ARTICLES Filed March 10, 1927 2 Sheets-Sheet gnucn fot:

a Wa e (Runny Aug. 16, 1932. R. A. BR'ENNECKE 7 1,871,492

METHOD OF FORMING MOLDED ARTICLES Filed March 10, 1927 2 Sheets-Sheet 2 Patented Aug. 16, 1932 ROBERT A. BRENNE CKE,

PATENT OFFICE or omoneo, ILLINOIS METHOD OF FORMING MOLDED ARTICLES Application filed March 10,

LB provement uponthe invention described and claimed in my copending application, Ser. No. 53,659, filed August 31, 1925, now Patent No. 1,745,400 of which this application is a continuation in part.

While my invention is not limited to an electrical condenser, it is especally applicable thereto. I shall therefore describe it in that connection, and particularly as applied to the type ofcondenser referred to in my abovementioned application. 1

Figure 1' illustrates a mold and assembly according to my invention. Figure 2 is a cross section of a mold with a condenser assembly therein. Figure 3 is a cross-sectional view of a completed condenser, the thickness of the elements being greatly magnified for the sake of clearness. In an actual molded assembly it should be understood that the extensions 7 lie substantially parallel; Fig ure 4 is a plan view of the lower part of the mold through section A--A.

'Referring to the drawings, such a condenser may suitably comprise a frame or wall portion, 1, of insulating material, provided with an opening 5, therein, for receiving the condenser elements. Top and bottom closures, 22, of insulating material are provided for the frame 1. Alternatively the frame may be made integral with one of these closure elements. Condenser leaves, 3, are assembled within the frame 1, alternately with insulating sheets 4. The frame, 1, is provided with extensions'fi fi of the opening 5, one. at each end. These extensions of the opening may be square, rectangular, and so forth, and are adapted to receive extensions 7 of the condenser leaves 3. These extensions 7 are formed atone end'only of each condenser leaf, and the leaves are assembled with their extensionsalternately at opposite ends of the frame 1. The lower part of the mold is shown at 8 and the upper part at 9. The lower part 1s provided with acavity, 10, of the proper s1ze .to receive the frame 1 and closure 2. Within 1927. Serial No: 174,373.

the mold cavity 10 are arranged pins, 11, preferably integral with the mold or at least with the knockout members 8", and of a suit able size and shape to assist in positioning the assembly. The closures 2, and extensions 7 of condenser leaves 3 are provided with perforations 12, which are adapted to fit over the pins 11. The pins being positioned so as o fall within the extensions 6 of the frame opemng and extensions 7 of the condenser leaves, the insulating sheets 4 need not be plerced. Moreover each condenser leaf 3 is made somewhat shorter than the length of the main opening 5 of the frame. It may also be made slightly narrower than the opening if desired. There is then a slight margin of insulation at the inner end of each leaf, and on the sides thereof if desired.

The insulating material may be of various sorts. I ordinarily prefer to use a phenolic resin material. This may be a molding mixture of the familiar type, in which case it is advantageously preformed or cold molded into the proper shapefor the/frame, closures, and so forth. One of the closures is then made integralwith the frame with some advantage. Alternatively the insulating material may be formed from laminated stock or impregnated sheets of the well known forms. These are readily punched to the proper shape, including the perforations. The frame may be composed of several superposed layers. The insulating sheets 4 are also advantageously made of one or more'layers of impregnated material. although they need not be composed of a moldable material, but may be of mica, etc.I When a laminated or impregnated stock is employed it may be either uncured or partially cured. In the latter event there is less flow in the mold, and the resulting product is sometimes superior for that reason. vWhatever the insulating material may be it should be of a reactive or only partially reacted character, so as to be capable of transformation under heat, or heat and pressure, in the understood manner to a fully cured finished article possessing the well known desirable characteristics of such molded products. This molding operation will then convert the assembly into an integral unit.

The process of assembly is to fit a closure element 2 into the mold cavity 10, with the capacity of the condenser. The extensions 7 are arranged at opposite "ends in alternate leaves. Each condenser leaf issecurely held in place by the pin 11 which passes through perforation 12. The insulating sheets 4 fit within the body of the opening 5, and are thus positioned. When the condenser is built up to the desired extent, theupper closure 2 is fitted over' the pins 11 and the mold is closed. The condenser is then subjected to pressure, .or to heat and pressure as in an ordinary molding operation. Th1s may be accomplished in a steam-heated press or otherwise, as is well understood in the art.

.If desired a sharp pin, insert, binding post stem or other contact element may be passed through the condenserleaf extensions 7 at each end, either before the mold is closed or by the molding pressure. Or the pressure of the mold may be sufiicient to force the extensions 7 into contact with each other or with the above mentioned contact elements. Another alternative is to make the contact with- .in the holes left by the withdrawal of the pins 11 when the condenser is removed from the mold.

A preferred method of making the contact, when the condenser is assembled according to this invention, is to place a small knurled metal bushing, 13, upon each pin, 11, after the condenser leaves are assembled, but before the top closure, 2, is laced in the mold. The holes, 12, in the top closure may be made sufficiently large to receive these bushings. The mol ing pressure is then suflicient to force the bushing into contact with the uppermost extension, 7, and to force this extension into intimate contact with the successive underlying ones.

A variation ofthis method is to make use of a bushing such as is shown at 14, provided with a lug 15 extending through a suitable slot, 16 in themold 8. The condenser is thus prgvided with an external terminal at each en The result of the molding operation is to produce an integral molded unit. The condenser elements are embedded in a hard, glossy, moisture-proof, shock-resisting, unitarymolded casing with which the internal insulation may be integral, especially when it is composed of moldable material. Such a condenser is well adapted to many purposes, and particularly to the severe requirements of the wireless telephone or radio industry.

The pins 11 need not be circular in crosssection. A square or rectangular cross-section may hold the assembly more firmly. The pins may be slightly tapered if desired.

They may also be used as a means for causing the two parts of the mold to register properly, the pins 11 fitting into corresponding holes in the upper part of the mold. Other variations and modifications fall within the scope of my invention.

A marked advantage of my invention is that it provides a method of both assemblin and molding a condenser in the mold itsel Only a sinigle piece of equipment is thus required, an I am enabled to dispense with the numerous and expensive pieces of apparatus hitherto employed in the manufacture of condenscrs. This results in a saving of time and labor, in the production of more uniform condensers, and of fewer defective ones. The method of assembly also results in more accurate positioning of the condenser plates, and consequently in greater accuracy in obtaining the desired capacity when the condensers are produced on a large scale.

I claim:

1. Method of making an electrical condenser which comprises assembling in a mold, with the aid of pins located therein, a plurality of alternate insulating and conductive elements, and frame and closure elements of moldable insulating material, and subjecting the assembled elements to a molding operation to unite them into an integral unit.

2. In a mold comprising a lower part or chase having a mold cavity therein, and an upper part or force for closing said cavity, and provided with assembling pins projecting into said mold cavity, the method of making an electrical condenser which comprises positioning a frame and lower closure element therefor, composed of moldable insulating material, within said lower part of said mold with said assembling pins projecting through said lower closure element; assembling upon said assembling pins a plurality of conducting elements positioned with the aid of said pins and arranged alternately with a plurality of insulating elements positioned with the aid of said frame member; positioning an upper closure element composed of moldable insulating material over sald assembly; and subjecting the assembled elements

Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2437166 *Jun 2, 1944Mar 2, 1948Int Resistance CoVolume control
US2506446 *Nov 13, 1944May 2, 1950Dubilier PhilipElectrical condenser
US2577005 *Mar 4, 1948Dec 4, 1951Micamold Radio CorpMethod of making molded condensers
US2602832 *Dec 10, 1947Jul 8, 1952Brennan Joseph BElectrolytic cell sealing means
US2793334 *Oct 24, 1950May 21, 1957Sprague Electric CoElectrical condensers
US2937410 *Sep 3, 1954May 24, 1960Edith M DaviesMethod of molding capacitors in printed circuits
US3011106 *May 1, 1958Nov 28, 1961 Capacitor assembly
US3024392 *Aug 15, 1955Mar 6, 1962Baermann MaxProcess for the manufacture of plastic bound permanent magnets
US3078207 *Jan 26, 1960Feb 19, 1963Kikuna Electric Company LtdMethod of laminating metal plates with a plastic film
US3117349 *Jun 30, 1960Jan 14, 1964Atlantic Refining CoPressure injection mold
US3305821 *Oct 3, 1963Feb 21, 1967Corning Glass WorksGlass-sealed electrical resistor
US3325586 *Mar 5, 1963Jun 13, 1967Fairchild Camera Instr CoCircuit element totally encapsulated in glass
US3879250 *May 3, 1973Apr 22, 1975Rankin Jr Paul BMethod of manufacturing paddle ball racquets
US3956057 *Jan 28, 1974May 11, 1976Dietrich JungApparatus and process for binding books with molten adhesive
US4133101 *Jan 9, 1975Jan 9, 1979Amp IncorporatedMethod of fabricating a laminated bus bar
US4191606 *Jul 5, 1978Mar 4, 1980Evans Stephen MMethod for securing composition board panels together
US4195557 *Jun 29, 1978Apr 1, 1980Chem Par CorporationCutting, scoring and embossing die set
US4823462 *Apr 14, 1987Apr 25, 1989Hilex Poly Company, Inc.Mass air flow sensor assembly and method of manufacture
US4872825 *Jul 13, 1987Oct 10, 1989Ross Milton IMethod and apparatus for making encapsulated electronic circuit devices
US8377244 *Feb 22, 2011Feb 19, 2013EurocopterMethod of fabricating a honeycomb structured panel
US20110203718 *Feb 22, 2011Aug 25, 2011EurocopterMethod of fabricating a honeycomb structured panel
Classifications
U.S. Classification264/272.18, 156/228, 264/275, 174/535
International ClassificationH01G13/00
Cooperative ClassificationH01G13/003
European ClassificationH01G13/00B