Search Images Maps Play YouTube News Gmail Drive More »
Sign in
Screen reader users: click this link for accessible mode. Accessible mode has the same essential features but works better with your reader.


  1. Advanced Patent Search
Publication numberUS2551664 A
Publication typeGrant
Publication dateMay 8, 1951
Filing dateNov 29, 1949
Priority dateNov 29, 1949
Publication numberUS 2551664 A, US 2551664A, US-A-2551664, US2551664 A, US2551664A
InventorsGalper Samuel
Original AssigneeGalper Samuel
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Television antenna
US 2551664 A
Abstract  available in
Previous page
Next page
Claims  available in
Description  (OCR text may contain errors)

M y 1951 s. GALPER' 2,551,664


This invention relates to television antennas, particularly to non-directional antennas of the folded type for indoor or inbuilt use.

It is primarily within my contemplation to provide an antenna construction wherein the half- Wave folded dipole elements are of circular configuration, there being two concentric elements for high and low bands of the television spectrum, the assembly being so constructed as to be simple to fabricate, easy to handle, convenient to ship and store, and sufiiciently rigid to maintain the component elements in predetermined relative disposition.

Attempts have been made to employ wire elements as the antenna components of a dipole construction, by mounting said wires on a. cardboard backing which had previously been slit to provide flaps under which the wire components were manually slipped for frictional attachment to the backing. It has been found that this type of construction was costly, and in order to maintain a proper spaced relation between the high and low frequency elements, considerable caution and skill were required, therefore adding considerably to the labor costs. It is one of the important objects of my invention to provide a dipole construction having none of the aforesaid high labor cost factors, and which will nevertheless have the advantages of an efficient and convenient antenna construction.

It is a further object of my invention to provide an antenna device of the aforesaid class capable of mass production manufacture by means of conventional die cutting and laminating methods.

Still another object of my invention is to provide a construction which will comprise several complete antennas from a, single die-cut unit, whereby said several antennas may readily be separated from the unit prior to installation. And in this aspect of my invention it is an important object to provide a die-cut multiple antenna, construction including electrically joined high and low frequency folded dipole components, and another folded dipole element adapted for FM modulation frequencies between the said high and low television bands.

Other objects, features and advantages will appear from the drawings and the description hereinafter given.

Referring to the drawings,

Figure l is a, plan view of a multiple antenna unit die-cut from a sheet shown by dot-dash lines, in accordance with a preferred form of my invention.

Figure 2 is an enlarged fragmentary section of Figure 1 taken along line 2--2.

Figure 3 is a folded dipole antenna, for high and low frequency bands, formed from the unit of Figure 1, and showing transmission line connections to the low frequency element.

Figure 4 is an enlarged section of Figure 3 take substantially along line 44.

Figure 5'is a perspective rear view of an open television cabinet with the antenna of Figure 3 operatively in place.

Figure 6 is a plan view of another form of antenna unit comprising three separable antennas, and

Figure '7 is a perspective disassembled View of the three antennas formed from the structure of Figure 6.

In the various forms of my invention illus trated, I employ a backing of relatively stiff material, such as cardboard, upon which is adhesively applied a sheet 01 metal foil. such as aluminum. Thereafter, according to the method of my invention, antenna units are stamped out of the sheet, preferably by die-cutting methods, leaving scoring lines to enable the separation of two or more antennas from each unit.

By referring to Figure 1 it will be seen that the main sheet [5 is of a laminated construction, comprising an insulating backing and a metallic foil on one surface thereof. By die-cutting or other suitable means, the antenna unit I I is blanked out to form two separable antennas, to wit, the antenna comprising the two folded circular dipoles l2 and i3, and the flat multiband antenna 14. Unit ii comprises the backing I5 of cardboard or other relatively stiff material, and the metal foil l6 (Figure 2) According to the structures of Figures 1 and 2, the flat antenna I4 is separated from the circular concentric elements !2 and Is by thecircular cuts or scoring circles H and 18, the said scorings extending only partially through the backing 55 so that members l2, l3 and I i are held together as a unit, but which are nevertheless capable of ready separation along said scoring circles.

The circular elements l2 and i3 are proportioned to serve as half-wave folded dipoles, element !2 being for low frequency bands and element !3 for high frequency bands. Said elements :2 and I3 are maintained in proper spaced relation, when in the form shown in Figure 1, by the member l4 and the two connecting members l9 and 2&3. As will be observed from the drawings, the elements i2 and I3 are almost complete circles, the outer ends 24 and 22 of element I2, and the outer end 23 and 24 of element l3 being spaced from each other, respectively, the said ends 2I and 23 being electrically joined by connecting element I9, and thesaid ends 22 and 24 being electrically joined by connecting element 20. The said ends 2I and 22 of the outer element I2 contain the apertures 25 and 2-6 respectively; and the outer terminal portions of the intermediate antenna member I4 contains the apertures 21 and 28. These apertures are adapted to receive transmission line lugs substantially of the kind shown in Figure 4.

The unit I I of Figure l is, as aforesaid, adapted w Or, if it is desired, the intermediate flat tele--.

vision antenna I4 may be pressed out from the unit iIl'kl'lOWl'l manner.

Figures 3 and 4 show an antenna formed from the :unit-I I, the intermediate antenna I4 having been-removed. It will be observed that in each of said holes 25 and 25 (25 in Figure 4) is an eyelet 29 the opposite heads of which are in engagement-with a washer 38 and the lug 3|, respectively, the latter being electrically connected to the transmission line 32. Since said lug is in engagement with the metal foil I5, it is obvious that the transmission line 32 is electrically connected to both elements I2 and I3.

The antenna, of Figure 3 can be employed indoors, either on the floor, under a carpetor it may be used as an inbuilt antenna like that shown in Figure-5. ,The television cabinet 33 contains, attached to the underside of roof 34, the antenna of Figure 3, the flat circular elements 52 and I3 being attached by fasteners 35 to said roof 34. The transmission lines 3-2 are electrically connected, in a manner well-known in the art, to the tuner or to an added pickup.

It is thus apparent that by a simple stamping or die-cutting operation, applied to a laminated sheet including a backing and a metal foil, a convenient, easily handled and eficient high-andlow frequency band antenna, of the folded dipole type; is provided. Not only could the device be easily shipped, but it is readily applied in the manner indicated. Furthermore, it is readily fabricated without the use of dimcult labor operations, such as would be necessary if circular wires were to be attached manually to a supporting backing- It should further be noted that the antenna member, pressed out from unit II, may serve the purpose of an FM antenna. In many localities the FMfrequencies lie approximately between the high and low frequency television bands; and in such locales member I4 will adequately serve as an FM antenna. Although such an antenna would not have specific definition between bands, it nevertheless could serve, in certain inexpensive receivers, as a satisfactory multiband antenna.

The unit 36 shown in Figure 6 is substantially like.unit I I of Figure 1, except that it is slightly differently proportioned and scored so as to enable three antennas to be formed therefrom.

The'dot-dash circles 37 and 38, joined by the" connecting lines 39 and 40 represent the critical proportions of a circular dipole construction for the high and low bands of the television spectrum. Circle 37 is intermediate circles 4| and 42; i and circle 38 is intermediate circles 43 and 44. Similarly, line 39 is intermediate connecting lines 45 and 46; and line 40 is intermediate connecting lines 4'! and 48. When unit 36 is die-cut along the said circles and lines, and the components pressed out as shown in Figure '7, three separate antennas are produced, these being antennas 49, 50, and 5|. Antenna 49 contains dipole elements 52 and 53, these being defined by the edges 4|, 37, 38 and 44 (Figure 6) elements 52 and 53 being joined by the connecting elements 54 and 55. Antenna contains the circular elements 55 and 51, these being defined by the edges 31, 42, 43 and 38, the elements 55 and 51 being joined by the connecting elements 58 and 59. Antenna 5| is the fiat multiband type, substantially like antenna i4, above-mentioned, and is definedby the edges 42 and 43. Although in this construction the mean diameters of the antenna elements of antennas E9 and 59 are not equal to the critical diameters 31 and 38, they are neverthelessadapted to receive satisfactory signals for the high and low bands, for all practical purposes. And the antenna 5! is similarly suitable for FM bands between the high and low television bands.

It Will be observed that in the unit of Figure 6, the outerv portion thereof defined by circles 4|, 3'! and 42 embodies in contiguous relation the elements 52 and 55, and the elements 53 and 51, respectively, shown in Figure '7. The antenna 49 is larger than and embraces the antenna 50; and the antenna 5i is disposed, on the sheet of Figure 6, intermediate the positions of the two arcuate elements 56 and 51 shown on Figure '7.

In both forms of the invention illustrated, the intermediate antennas I4 and 51 are wider than the circular elements I2 and I3, and the elements of antennas 49 and 59, respectively, The width of the backings of the various antennas shown are the same as of the foil sheets to which they are attached, rendering the antennas readily adaptable to be formed from flat laminated sheets by conventional die-cutting methods.

In the above description, the invention has been disclosed merely by Way of example and in preferred manner; but obviously many variations and modifications may be made therein which will still be comprised within its spirit. It is to be understood, therefore, that the invention is not limited to any specific form or manner of practicing same, except in so for as such limitations are specified in the appended claims.

I claim:

1. A laminated sheet unit for forming a plurality of television antennas, said sheet unit comprising a fiat sheet of metal foil and an insulating backing therefor, the foil and backing combination being scored to produce a plurality of separable parts, one of said parts being of the configuration of an antenna comprising two looped elements in spaced relation with two spaced connector members joining said elements, another of said parts comprising the portion intermediate the said two looped elements and being defined by said elements and the said connecting members, said latter part being of the configuration of a looped antenna and being wider than the looped elements of said first-mentioned antenna, whereby it is adapted for frequencies between those of the two said first-mentioned elements.

2. A laminated sheet unit for formin a plurality of television antennas, said sheet unit comprising a fiat sheet of metal foil and an insulating backing therefor, the foil and backing combination being scored to produce a plurality of separable parts, one of said parts being of the configuration of an antenna comprising two looped elements in spaced concentric relation, the ends of each of said 100ped elements being in adjacent spaced relation, whereby said elements are almost complete loops, said looped foil elements being electrically connected by two spaced connecting members of metal foil extending from the ends of one of said elements to the corresponding ends of the other element, whereby said elements and members form a continuous electrically connected conductor comprising an inner high frequency antenna element and electrically connected thereto an outer low frequency antenna element; another of said parts being of th configuration of a looped antenna and being wider than the looped elements of said first-mentioned antenna, whereby it is adapted for frequencies between those of the two said first-mentioned elements.

3. A laminated sheet unit for forming a plurality of television antennas, said sheet unit comprising a flat sheet of metal foil and an insulatlng backing therefor, the foil and backing combination being scored to produce three separable parts, two of said parts being each of the configuration of an antenna comprising two looped elements in spaced relation with two spaced connector members joining said elements, said elements and members being in contiguous relation, whereby one of the antennas embraces and is larger than the other; the third of said parts comprising the portion of said sheet disposed between the two looped elements of the smaller of said two first-mentioned antennas and being defined thereby and by the connecting members; said third part being of the configuration of a looped antenna and being wider than the looped elements of said first-mentioned antennas, whereby it is adapted for frequencies between those of the two first-mentioned antennas.


REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 2,479,337 Fyler Aug. 16, 1949 FOREIGN PATENTS Number Country Date 474,438 Germany Dec. 20, 1927 451,213 Great Britain July 31, 1936

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US2479337 *Oct 16, 1945Aug 16, 1949Gen ElectricAntenna system
DE474438C *Apr 2, 1929Alfred DambitschRahmenantenne
GB451213A * Title not available
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2688083 *Sep 1, 1950Aug 31, 1954E LichtensteinMultifrequency antenna
US2719919 *Jun 17, 1950Oct 4, 1955Stromberg Carlson CoBuilt-in antenna system
US2724053 *Sep 7, 1951Nov 15, 1955Jack M DavisWhip-type antennae
US2724773 *Oct 16, 1951Nov 22, 1955Hi Lo Tv Antenna CorpAntennas
US2751590 *Nov 25, 1952Jun 19, 1956Troutman Wilbur EarlOutdoor circular band antenna
US2842765 *May 24, 1951Jul 8, 1958Frank R SchmittTelevision antenna
US2883664 *Jul 3, 1953Apr 21, 1959Roy Sloppy MiltonAntenna structure with coupling network
US3573830 *Feb 7, 1969Apr 6, 1971Sony CorpLoop antenna
US3641576 *Apr 13, 1970Feb 8, 1972Zenith Radio CorpPrinted circuit inductive loop antenna
US4342999 *Nov 25, 1980Aug 3, 1982Rca CorporationLoop antenna arrangements for inclusion in a television receiver
US4380011 *Nov 25, 1980Apr 12, 1983Rca CorporationLoop antenna arrangement for inclusion in a television receiver
US4518965 *Feb 12, 1982May 21, 1985Tokyo Shibaura Denki Kabushiki KaishaTuned small loop antenna and method for designing thereof
US4546357 *Apr 11, 1983Oct 8, 1985The Singer CompanyFurniture antenna system
US4647937 *Mar 31, 1986Mar 3, 1987Tokyo Shibaura Denki Kabushiki KaishaAntenna apparatus with tuned loop
US4804965 *Jul 1, 1986Feb 14, 1989Agence Spatiale EuropeenneFlat wide-band antenna
US6121929 *Jun 30, 1997Sep 19, 2000Ball Aerospace & Technologies Corp.Antenna system
US6184846Feb 3, 2000Feb 6, 2001Marconi Commerce Systems Inc.Loop conductor antenna for fuel dispenser
US7969373 *Oct 18, 2006Jun 28, 2011Nxp B.V.UHF/VHF planar antenna device, notably for portable electronic equipment
WO1988005546A1 *Jan 6, 1988Jul 28, 1988Midi Robots Societe AnonymeIdentification and/or localization system and beacon
U.S. Classification428/43, 428/606, 156/251, 428/571, 428/580, 343/908, 343/867, 343/803, 428/192, 343/741, 29/600, 428/131, 156/250, 428/66.6
International ClassificationH01Q5/00
Cooperative ClassificationH01Q5/0058, H01Q9/265, H01Q5/0072
European ClassificationH01Q5/00C