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Title: Rifle barrel serving as radio antenna
Description: Description:
BACKGROUND OF THE INVENTION a. Field of the Invention Broadly speaking, this invention relates to radio antennas. More particularly, in a preferred embodiment, this invention relates to a camouflaged radio antenna for use by military personnel and the like. B. Discussion of the Prior Art As is well known, in modern military warfare it is essential that combat personnel have at all times the capability of contacting the command post and/or other friendly personnel. It is, thus, routine to assign one or more radiomen to each platoon or squad, each radioman typically being equipped with a VHF walkie-talkie or similar transceiver. Unfortunately, the whip antennas furnished with such transceivers are substantially effective only when vertically oriented and this makes the radio operator a prime target for enemy sniper fire because the enemy knows only too well how vital communications are to a combat platoon. This, of course, is not the only problem with prior art procedures. Since it is unwise to leave the radio operator defenseless, he too must be equipped with a rifle; but, the rifle tends to make it difficult for the operator to use his transceiver. Likewise, the transceiver and its antenna, in particular, makes it extremely awkward for the operator to aim and shoot his rifle. The problem, then, is to devise a transceiver configuration that renders the antenna substantially invisible to the enemy and which does not interfere with the operation of the radio operator's rifle, or vice-versa, all without substantially degrading the performance of the transceiver. SUMMARY OF THE INVENTION Fortunately, the above and other problems have been solved by the instant invention which, in a preferred embodiment, comprises in combination a weapon having an elongated electrically-conductive barrel, a radio-frequency transceiver mounted to the weapon and means for coupling the r.f. output of the transceiver to the barrel whereby the barrel acts as the antenna for the transceiver. The invention and its mode of operation will be more fully understood from the following detailed description, when taken with the appended drawings, in which: DESCRIPTION OF THE DRAWINGS Description of the Drawings FIG. 1 is an isometric view of a first illustrative embodiment of the invention; and FIG. 2 is a schematic drawing of an illustrative transmitter for use with the apparatus shown in FIG. 1. DETAILED DESCRIPTION OF THE INVENTION FIG. 1 depicts an illustrative embodiment of the invention. One skilled in the art will appreciate that many variations are possible without departing from the spirit and scope of the invention. As shown, a transceiver 10 is fastened by some suitable means, not shown, to the stock of a rifle or other similar weapon 11. Transceiver 10 is connected, via a pair of trimmer capacitors 12, 13, to a HEMAC coil antenna 16 which is co-axially mounted about the lower end of the barrel 17 of rifle 11. An insulator 18 about barrel 17 prevents the turns of coil 16 from shorting. In the arrangement shown in FIG. 1, the rifle acts as an electrical whip antenna for the transceiver, the antenna being connected to the transceiver by a leaky RF transformer. The magnetic leakage induction field from this transformer becomes the effective means for launching the RF signal when the whip antenna becomes ineffective, e.g., when the rifle is close to the ground or held horizontally. FIG. 2 depicts an illustrative transmitter for the rifle. It will be understood that many other configurations are possible. As shown, transmitter 20 comprises a tuned r.f. oscillator comprising a power transistor Q1 and a tapped coil L.sub.1. The frequency of the oscillator is determined by a quartz crystal X.sub.1 and a capacitor C.sub.3. The oscillator is modulated via audio frequency signals applied to the collector of Q1 from modulation transformer T.sub.1. The barrel 17 of gun 11 acts as a low impedance secondary load in a resonant toroid transformer circuit, HEMAC coil 16, the high impedance primary winding of which is coupled to the output of transmitter 20 by a series capacitor C.sub.2 and a parallel capacitor C.sub.1, both advantageously trimmer capacitors (12 and 13 in FIG. 1). In operation, C.sub.1 and C.sub.2 are adjusted to match the output impedance of the transmitter to the barrel of the rifle. Since the radioman's body acts as a counterpoise for the whip antenna, it is difficult to make accurate and repeatable impedance measurements; however, typical values are about 100 ohms with a phase angle of up to -40.degree. . Obviously, results will vary from weapon to weapon and are a function of the frequency employed. If the gun barrel is too short for the desired frequency, the barrel may be electrically extended, care being taken that the extension does not affect the actual operation of the weapon. If the barrel is electrically too long, then the position of coil 16 may be changed to obtain the desired impedance match and radiation pattern. A series of experiments were conducted on two guns, one having a barrel considerably longer than the other. The frequency employed was 27.175 MHz and the nominal output power was 100 MW. The performance of the gun-antennas was evaluated relative to the performance of the same transmitter using a conventional whip antenna. The performance of the respective radiators is expressed in terms of the emitted vertical electrical field intensity (in dB), relative to 1 .mu.V/meter as measured on a commercial field-intensity meter.
TABLE 1
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SIGNAL AND NOISE LEVELS IN dB/1 microvolt
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POSITION OF
XMTR OPERATOR
KNEELING STANDING
ORIENTATION
VERTICAL
HORIZONTAL VERTICAL
HORIZONTAL
OF RADIATOR FACING
BROADSIDE FACING
BROADSIDE
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TYPE OF RADIATOR
and FREQUENCY
SHORT BARREL
GUN, 27.075 MHz
35 33 34 39 36 37
LONG BARREL
GUN, 27.175 MHz
41.5 32 35 35 41 39
CONVENTIONAL
WHIP, 27.175 MHz
39.5 31 32 41.5 34 36.5
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Remarks:
Noise Level = 15 dB/.mu.V For conversion to Field Intensity (Evert in dB
relative to 1 .mu.V/m) add + 5.8 dB.
Taking the average of the field intensity levels in .mu.V/meter for the three different radiator orientations in the standing and kneeling position of the transmitter operator, one arrives at the following average performance data.
TABLE 3
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RADIATOR KNEELING STANDING
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Short Barrel Gun
99 145
Long Barrel Gun
140 168
Conventional Whip
111 154
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The consistency of these results is recognized by the approximately 30 -40 .mu.V/meter gain in the standing position over the kneeling position. These tables prove that, on the average, the use of a rifle barrel as a radiator yields superior results than a conventional whip alone. Although the invention has been disclosed in a military context, one skilled in the art will appreciate that it also has civilian applicability. For example, by the police or state troopers or by hunters, et cetera. Further, one skilled in the art will appreciate that various changes and modifications may be made without departing from the spirit and scope of the invention. Other info: Inventors: Ikrath, Kurt (Elberon, NJ, US) Kennebeck, William (Sea Bright, NJ, US) Wills, Jack (Ocean Grove, NJ, US) Application Number: 645722 Filing Date: 1975-12-31 Publication_date: 1977-02-15 Assignee: The United States of America as represented by the Secretary of the Army (Washington, DC) Primary Class(es): 343/720 42/106, 343/895 Other Classes: US Patent Ref:
Other Refs: Primary Examiner: Lieberman, Eli Assistant Examiner: Attorney: Edelberg; Nathan, Kanars; Sheldon, Goldberg; Edward |
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