US2989259A - Automatically operated radio antenna - Google Patents

Description

June 20, 1961 J. YOUHOUSE ETAL 2,939,259

' AUTOMATICALLY OPERATED RADIO ANTENNA Filed Feb. 1, 1955 2 Sheets-s 1 INVENTORS BY 7 I W M W ATTORNEYS June 20, 1961 J. YOUHOUSE ET AL 2,989,259

AU'I'QIVIA'IICALLY OPERATED RADIO ANTENNA Filed Feb. 1955 2 Sheets-Sheet 2 ATTORNEYS United States Patent O 2 989,259 AUTOMATICALLY OPERAT-ED RADIO ANTENNA Joseph Youhouse, Fairfield, and Joseph H. Cone, Bridgeport, Conn., assignors to Casco Products Corporation,

Bridgeport, Conn., a corporation of Connecticut Filed Feb. 1, 1955, Ser. No. 485,400 11 Claims. (Cl. 242-54) This invention relates to motivated extensible and retractible radio antennas, as, for example, used in automobiles, and more particularly to controls for antennas of the type having a flexible driving strip adapted to actuate a movable antenna section.

An object of the invention is to provide a novel and improved, motivated extensible and retractible antenna wherein the movements of the antenna section or sections are reliably, automatically controlled to enable fully extended and retracted positions of said section or sections to be readily and quickly obtained. 7

Another object of the invention is to provide a novel and improved automatic antenna as above characterized and having a flexible driving strip, which is compact and relatively small in size so that its space requirements are not critical or diificult to meet. A A further object of the invention is to provide a novel and improved, motivated antenna of the type wherein a driving strip is stored on a reel, which antenna has automatic means for controlling and limiting the extension and retraction of the antenna sections.

Still another object of the invention is to provide an improved antenna as characterized immediately above, wherein the movement of the reel is utilized to effect the control.

Yet another object of the invention is to provide an automatic antenna of the above type, wherein there is effected a reliable and effective control of the motive means without physically limiting the movement of the antenna sections or driving strip, or of the reel.

A feature of the invention resides in the provision of an improved, automatically operative antenna employing a motor and storage reel, wherein the reel is so constructed and arranged as to extend around one end of, and nest the motor, thereby to effect a substantial saving of space.

Other features and advantages will hereinafter appear.

In the accompanying drawings:

FIGURE 1 is a view partly in side elevation and partly in vertical section, showing the improved antenna control mechanism of the invention.

FIG. 2 is a side elevational view of upper portions of the antenna, including the means by which it is mounted on the automobile.

FIG. 3 is a horizontal sectional view taken online 3--3 of FIG. 1 showing the motor drive mechanism.

FIG. 4 is a horizontal sectional view taken on line .44 of FIG. 1.

FIG. 5 is a horizontal sectional view taken online 55 of FIG. 1.

FIG. 6 is a fragmentary vertical section taken on line 6--6 of FIG. 5.

FIG. 7 is a schematic diagram showing the circuit of the control device.

Referring to FIGS. 1-3, the automatic antenna shown therein comprises an elongate,tubular casing 10 to which theantenna lead wire 11 is attached by asuitable fitting 12, thecasing 10 enclosing a stationary, elongatetubular antenna section 13. Movable in thestationary section 13 are telescoping inner andouter antenna sections 14 and 15, which are extensible from the stationary section and also retractible therein, all in the well known manner.

Thecasing 10 has mounting means 16 by which it may f ice be attached to a body panel 17 of an automobile, or any other similar supporting surface, as is well understood.

Theinnermost antenna section 14 is preferably in the form of a solid rod, and is actuated by an elongate, flex? ible driving element orstrip 18 which is attached to its lowermost end. Thestrip 18 may be advantageously formed of a plastic material, such as fiber-forming polymeric amide.

Thedriving strip 18 passes betweenfriction wheels 20 carried bydivergent shafts 21 which mountworm gears 22 engaging aworm 23 carried by the shaft of anelectric driving motor 24. Operation of themotor 24 in either forward or reverse directions will result in thedriving strip 18 being forced longitudinally either upward or downward, thereby extending or retracting the antenna sections, as will be understood.

In accordance with the present invention a novel and advantageous control means is provided, for controlling the operation of themotor 24 so as to obtain automatic extension and retraction of the movable antenna sections in response to actuation of a two-position electric switch. By coupling the two-position switch to the on-off switch of a radio set, automatic extension of the antenna may be effected when the set is turned on, and automatic retraction effected when the set is turned off.

Referring to FIG. 1 acylindrical housing 26 is provided, extending around and enclosing the lower end POI?tion 27 of themotor 24. Within thehousing 26 there is areel 28 having arecess 29 at one side in which thelower end 27 of themotor 24 is accommodated. Thereel 28 has a substantially cylindrical recess 30 in its other side, to provide clearance for a two-positionelectric switch 31 which is mounted on thelower end 32 of thehousing 26. Thereel 28 also has anannular recess 33 arranged to receive in coil or helical form theflexible driving strip 18. The lower end of thedriving strip 18 is secured to the lower portion of thereel 28 by apin 34, FIG. 1, or any other suitable means. As shown in this figure, theflexible driving strip 18 is coiled in theannular recess 33 of thereel 28 and extends upwardly from the reel along a curved path indicated by thebroken outline 35, to pass through a guide bushing 36 into anupper housing 37 which encloses the driving mechanism shown in FIG. 3. Acurved guide 38 extends between theupper housing 37 and thelower housing 26, confining the curved portion of thedriving strip 18 and providing for smooth and uninterrupted movement of the driving strip to and from thereel 28.

By the above construction forward or reverse operation of themotor 24 will cause thedriving strip 18 to move longitudinally upward or downward, either uncoiling the strip from thereel 28 or coiling the strip in the reel, in therecess 33 thereof. Thus movement of thedriving strip 18 will be accompanied by a corresponding turning of thereel 28, as the strip is either coiled on the reel or uncoiled from it.

We employ this concurrent movement of thereel 28 to effect a novel and advantageous control by which themotor 24 is automatically started and halted in accordance with actuation of the on-01f switch of the radio set, the motor first performing its function of raising or lowering the antenna sections and then being automatically halted without further action on the part of the operator. This control does not require that either thedriving strip 18 or thereel 28 be brought to a halt, but instead is responsive to thereel 28 attaining either of two different rotative positions, as by turning of the reel through more than one revolution.

In the embodiment of the invention illustrated herein the control employs a Geneva movement comprisinga slottedstar wheel 40 cooperable with ahub 41 on thereel 28, said hub having a concave depression 4216- provide clearance for thestar wheel 40 when thereel 28 is at one given rotative position. Adjacent thedepression 42 thereel 28 has a drivingpin 43 receivable inslots 44 in thestar wheel 40. It will be understood that thereel 28 may turn through almost a complete revolution without driving thestar wheel 40, but upon thepin 43 being moved into engagement with the star wheel the latter may be actuated through a part of a revolution, in this case one-sixth revolution. Thus for six turns of thereel 28 thestar wheel 40 will make a single complete turn.

Actuated by thestar wheel 40 is aslide bar 45 movable betweenguides 46 and 47 carried by thebottom wall 32 of thehousing 26. Theslide bar 45 has a projectingpin 48 engageable with a projectinglug 49 on thestar wheel 40 whereby the bar may be reversibly shifted longitudinally when thestar wheel 40 is turned in either of opposite directions. One end of theslide bar 45 has acutaway portion 50 provided with anotch 51 receiving an actuatingmember 52 of theswitch 31, said switch being of the snap type and having atoggle leaf spring 53 engageable with atoggle member 54 by which a snap action is obtained. Theswitch 31 has a pair ofstationary contacts 55 and 56 and a. pair ofmovable contacts 57 and 58 respectively enageable with thecontacts 55 and 56. Themovable contacts 57 and 58 are alternately held in engagement with their cooperable contacts by thetoggle member 54. The closed and opened circuit conditions of theswitch 31 are thus responsive to positioning of theslide bar 45 as effected by thestar wheel 40. When thebar 45 is shifted to the right as viewed in FIG. it will cause engagement of thecontacts 55 and 57 and separation of thecontacts 56 and 58, and when theslide bar 45 is returned it will cause a reverse actuation and condition of said contacts.

The structure as above described is so constituted and arranged that when themotor 24 drives theantenna sections 14, 15 upward to extended position, uncoiling of thedriving strip 18 from thereel 28 will cause clockwise turning of the reel as viewed from above and this will shift thestar wheel 40 counterclockwise, and cause theslide bar 45 to be moved from left to right. In so doing thecontacts 55 and 57 will be brought together and thecontacts 56 and 58 will be separated. When themotor 24 is in reverse, causing thedriving strip 18 to be coiled in thereel 28 the latter will be turned counterclockwise, causing thestar wheel 40 to turn clockwise and return theslide bar 45 from right to left, thereby separating thecontacts 55 and 57 and causing engagement of thecontacts 56 and 58.

In FIG. 7 a schematic circuit diagram is shown, wherein the motor armature is indicated at 60, connected through one brush to aground 61 and through another brush to acenter tap 62 of asplit field 63 the ends of which are connected to thecontacts 57 and 58 of theswitch 31. Theswitch contacts 55 and 56 are connected by wires 65 and 66 respectively to contacts 67 and 68 of a single poledouble throw switch 69 having amovable blade 70. Theswitch blade 70 is connected by awire 71 to abattery 72 which is connected to aground 73.

The single poledouble throw switch 69 maybe actuated simultaneously with the on-off switch of the radio set. When theblade 70 is caused to engage thecontact 68 in theswitch 69 it will connect themotor 24 through one part of the field winding 63, to cause forward turning of the motor by virtue of thecontacts 56 and 58 being engaged. The antenna will then be extended, and as it nears the upper limit of its movement thestar wheel 40 will shift theslide bar 45 to the right, to actuate theswitch 31. This will separate thecontacts 56 and 58, halting the motor. At the same time thecontacts 55 and 57 will be engaged, setting the circuit for subsequent retraction to the antenna. When the radio set is turned ofi, theswitch blade 70 will be disengaged from thecontact 68 and engaged with thecontact 67. This will energize themotor 24 for reverse turning, and will cause the antenna to be withdrawn into thecasing 10. As thereel 28 is turning counterclockwise and the antenna approaches its lower limit of movement thestar wheel 40 will be actuated clockwise to shift theslide bar 45 from right to left, separating thecontacts 55 and 57 and thus deenergizing and halting themotor 24. Thecontacts 56 and 58 will again be engaged, placing the circuit in readiness for the extending movement of the antenna when theswitch 69 is agam actuated to engage theblade 70 with thecontact 68.

With the above construction we have provided a compact and relatively small yet elfective and reliable control mechanism, operated in response to turning of thereel 28 concurrently with raising and lowering of theantenna sections 14 and 15, to automatically halt said sections when they reach either the upper or lower limits of their movement. The control is relatively simple, has few parts which are not likely to get out of order easily, and may be economically manufactured.

Variations and modifications may be made within the scope of the claims and portions of the improvements may be used without others.

We claim:

1. In an antenna having an extensible and retractible section and an elongate, flexible, longitudinally-movable driving element connected to said section to actuate the same; drive means frictionally engaging the element to longitudinally move it; a rotatably-mounted member; means causing said member to turn concurrently with movement of the element; and control means including connections to said member to cause actuation of the control means in response to turning of said member to control the drive means.

2. In an antenna having an extensible and retractible section and an elongate, flexible driving clement connected to said section to actuate the same; a rotary member on which the driving element may be coiled, said member being freely rotatably mounted but caused to turn concurrently with coiling of the element thereon or uncoiling of the element therefrom; and control means including connections to said member to cause actuation of the control means solely in response to turning of said member.

3. In an antenna having an extensible and retractible section and an elongate, flexible driving element connected to said section to actuate the same, a rotary member on which the driving element may be coiled, said member being freely rotatably mounted but caused to turn concurrently with coiling of the element thereon or uncoiling of the element therefrom; and control means including connections to said member to cause actuation of the control means solely in response to said member attaining either of two different rotative positions.

4. In an antenna having an extensible and retractible section and an elongate, flexible driving element connected to said section to actuate the same; drive means frictionally engaging the element to longitudinally move it; a reel having an annular groove in one side, in which the driving element may be coiled, said reel turning concurrently only with coiling of the element'therein or uricoiling of the element therefrom; and control means including connections to said reel to cause a'ctuatioiiof the control means in response to said reel attaining either of two dilferent rotative positions to control the drive means.

5. The invention as defined inclaim 1 in which the rotatably-mounted member comprises a reel on which the driving element may be coiled and from which it may be uncoiled, said element at one end being attached to said reel.

6. In an antenna having an extensible and retractible section and an elongate, flexible driving element connected to said section to actuate the same, a rotary member on which the driving element may be coiled, said member being freely rotatably mounted but caused to turn concurrently with coiling of the element thereon or uncoiling of the element therefrom, control means actuated solely in response to said member attaining either of two different rotative positions, and in which the control means includes a Geneva movement driven by the rotary member and a circuit control switch actuated by the Geneva movement.

7. The invention as defined in claim 6 in which the control means includes a slotted star wheel and a projec tion carried by the rotary member for intermittently turning said wheel, a slide bar actuated in reverse directions by reverse turning of the star wheel and a snap switch actuated by the slide bar.

8. The invention as defined in claim 7 in which the slide bar has a projection and the star wheel has a lug engageable with the projection and constituting a driving connection by which the bar is actuated.

9. In an antenna having a driving motor and a flexible, longitudinally movable driving element; means frictionally interconnecting the motor and the element; a reel freely rotatably mounted adjacent an end of the motor, said reel having outer and inner peripheral walls defining an annular recess for coiling and confining the driving element, said element when coiled on the reel extending around the said end of the motor; a curved guide means engaging the driving element adjacent the reel and guiding the same in a curved path between the reel and the said end of the motor; said reel being formed to have a substantially cylindrical recess on the side of the reel opposite from the side of the reel adjacent the motor; and control means disposed in said cylindrical recess and actuated solely in response to turning of the reel to control the driving motor.

10. An antenna comprising an extensible and retractable section; an elongate, flexible driving element connected to said section to actuate the same; drive means frictionally engaging the element to move same; a reel rotatably mounted and being rotated solely by the element being coiled thereon or uncoiled therefrom; a pin carried by the reel and cooperating with a star wheel to rotate the star wheel only a portion of a revolution for each revolution of the reel; control means including an electric switch actuated by the rotative movement of the star wheel; a manually operable switch for actuating the drive means; and a circuit including the control means, the driving means and the manually operable switch whereby the control means efiectuates control of the drive means after a predetermined rotative movement of the star wheel irrespective of the manually operable switch.

11. An extensible and retractable antenna comprising an antenna section mounted for telescoping movement into and out of a stationary, tubular section; a flexible rod having one end connected to the movable section for actuating the latter upon longitudinal movement of the rod; a pulley mounted to have its periphery in engagement with the rod; motor means connected to the pulley to rotate same; pressure means for causing frictional engagement between the rod and pulley; a reel mounted for free rotational movement; means connecting the other end of the rod to the reel to cause rotation thereof as the rod is stored or removed from the reel; and control means including connections to said reel to cause actuation of the control means in response to turning of the reel to control the motor means.

References Cited in the file of this patent UNITED STATES PATENTS 1,859,159 Perrett May 17, 1932 2,102,917 Rolland Dec. 21, 1937 2,222,588 Williams Nov. 19, 1940 2,237,705 Kohl Apr. 8, 1941 2,297,389 Brandholt Sept. 29, 1942 2,343,684 Mace Mar. 7, 1944 2,349,008 Sauter May 16, 1944 2,496,890 Peterson Feb. 7, 1950 2,621,863 Nagel Dec. 16, 1952 2,674,416 Landenberger et al. Apr. 6, 1954 2,709,220 Spector May 24, 1955 FOREIGN PATENTS 507,760 Great Britain June 19, 1939

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