US1561228A - Capacity compensating device - Google Patents

Capacity compensating device Download PDF

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US1561228A
US1561228A US445498A US44549821A US1561228A US 1561228 A US1561228 A US 1561228A US 445498 A US445498 A US 445498A US 44549821 A US44549821 A US 44549821A US 1561228 A US1561228 A US 1561228A
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antenna
support
movement
circuit
capacity
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US445498A
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Jr John Hays Hammond
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01QANTENNAS, i.e. RADIO AERIALS
    • H01Q1/00Details of, or arrangements associated with, antennas
    • H01Q1/12Supports; Mounting means
    • H01Q1/18Means for stabilising antennas on an unstable platform

Definitions

  • Some of the objects ofthe present invention are to provide means for compensating for variations in the capacity of an antenna circuit caused by changes in the effective height of the antenna due, for example, to the roll or tipping movement of a ship or other body on which the antenna is mounted; to provide means for automatically varying the capacity of part of an antenna circuit to compensate for changes in the.
  • FIG. 2 a perspective view in normal position'of one form of the present invention arranged to compensate for variations 1n the capacity of an antenna circuit caused by the roll ofa vessel supporting. the antenna; Fig. 2
  • Fig. 1 represents the same apparatus under the influence of a roll through an angle;
  • Fig. 3. represents in perspective another form of showing a circuit wherein compensation is In the accompanyingdrawings, Fig. 1 is obtained by means of a variable inductance element.
  • Fi'gsJl'and 2 includes a condenser of any vwell-known form enclosed within an instrument box 10. '55 As shown, thecondenser has a shaft 11 by which the movable 'plates 12 of the condenser may be rotated with respect to the fixed plates 13.
  • the frames 16 are secured to anysuitable fixed part of the body of a ship, vessel or other movable body provided with an antenna of a wireless system.
  • the construction is such that when the vessel rolls to one side or the other the frames 16 will.
  • gear segment 17 is rigidly fastened to the rod 15 sothat any swinging movement of the'frames 16 will be transmitted to the segment 17
  • the gear segment 17 is positioned to mesh with a bevel gear 18 which is fast to the projecting end of theshaft 11.
  • an'arm 20 'carried by the box 10 has its outer free end provided with a friction tracker 21 of any suitable form and material arranged to ride upon a curved track 22 fixed to one of the side frames 16.
  • The'track 22 is of suitable length to allow for any angular movement within the normal limits and has its center of curvature coincident with the rod 15.
  • any roll of thevessel for example, through an angle of 30,as indicatedin Fig. 2, will cause the frames 16 and rod to swing relative to the box 10" and thereby cause the gear segment 17 to turn the bevel gear 18, which operates the shaft 11, to vary the capacity of the condenser in the box 10 and thereby compensate for the change in the capacity of the antenna circuit caused by the roll of the vessel bringing the antenna closer to the surface of the water.
  • FIGs. 3 and 4 Another form of the present invention is shown in Figs. 3 and 4, wherein the compensating mechanism is the same as that heretofore described except that the shaft 11, in this instance, is connected to the movable coil or elements of a variometer 31 of the type having a fixed coil or element 32 with which the movable coil has an interfitting relation, so that any variation in the height of the antenna caused by the roll of the vessel will be accompanied by a compensating change in the inductance of thevariometer, so that a constant wave length of the aerial circuit will be maintained, regardless of changes in the capacity of the antenna due to its movement.
  • the compensating mechanism is the same as that heretofore described except that the shaft 11, in this instance, is connected to the movable coil or elements of a variometer 31 of the type having a fixed coil or element 32 with which the movable coil has an interfitting relation, so that any variation in the height of the antenna caused by the roll of the vessel will be accompanied by a compensating change in the inductance of the
  • This circuit s inductively coupled to a secondary circuit and operates ina well-known manner.
  • condenser 36 is arranged to be controlled by the compensating means in the form of the invention shown in Figs..1 and 2. The remaining portions of the system are of any be specifically described here.
  • an antenna operatively mounted upon a movable body
  • an antenna operatlvely mounted upon a vessel, an aerial circuit includmg said antenna, and means for automatically compensating for 'varia-. tions in the capacity ofsaid antenna.
  • an antenna operatively mounted upon a vessel, an aerial circuit including said antenna, and means operated by :the' roll of said vessel for compensating for variations .in the capacity of said antenna circuit resulting from variasaidmovement so tions in the height of said antenna caused by the roll of said vessel.
  • an antenna operatively mounted upon a vessel, an aerial circuit including said antenna and means for automatically varying the electrical characteristics of saidcircuit in accordance with variations in the capacity of said antenna to ground so as to keep the Wave length of the antenna circuit substantially constant.
  • an antenna operatively mounted upon a vessel, an aerial circuit including said antenna and means operated by the roll of said vessel for varyin the electrical characteristics of said circuit in accordance with variations in capacity of said antenna caused by the roll of said vessel so as to keep the wave length of the antenna circuit substantially constant.
  • an aerial circuit including said antenna and means operated in synchronism with the movement of said antenna for varying the electrical characteristics of said circuit so as to keep the wave length of said circuit substantially constant.
  • a circuit tuned to the frequency of desired re- .ceived oscillations and means operated in synchronism with the movement of said antenna for varying the electrical characteristics of said circuit so as to compensate for variations in capacity of said antenna caused by the movement thereof.
  • an aerial circuit including said antenna and means operated in synchronism with the relative movement of said of said antenna causedby as to keep the wave length antenna and saidmember for varying the electrical characteristics of said circuit so as to keep the wave length of said circuit substantially constant.
  • an antenna operatively mounted upon a vessel, an aerial circuit including said antenna, and means including a support fixed to said vessel and a member freely suspended from said support for automatically varying the capacity of a part of the antenna circuit in accordance with variations in capacity of said antenna caused by the roll of said vessel.
  • an antenna mounted for tipping movement in a vertical plane, a support movable with the antenna, a variable reactance device electrically connected with the antenna, and connections between the support and the reactance device for adjusting the reactance device to compensate for vari ations in the capacity of the antenna caused by tipping movement of the antenna.
  • a movable antenna In an arrangement of the class described, a movable antenna, a support mounted for movement with the antenna, a variable reactance device mounted on the support and electrically connected with the antenna, and connections between the support and the reactance device for adjusting the reactance device ,to compensate for changes in the capacity of the antenna caused by its movement.
  • anantenna and apparatus including a support, a reactance-device electrically connected with the antenna and comprising relatively movable parts,'said device being mounted on the support, and connections between the support and certain of the parts of the reactance device for efiecting relative movement of said first-mentioned parts in accordance with movement of the support of a predetermined character.
  • an antenna and apparatus comprising a support, a condenser mounted on the antenna,'said condenser including relatively fixed and movable plates, and connections between the support and the movable plates of the condenser for moving said last-mentioned plates relatively to the fixed plates in accordance with movement of the support;
  • an antenna and apparatus comprising a support, relatively fixed and movable reactance elements electrically connected with the antenna and pivotally mounted on the support so as to retain their normal positions with respect to the earth by gravity regardless of tipping movement of f the support, and connections between the support and the movable reactance elements for effecting movement of said elements relatively to the fixed elements in accordance with the extent of tipping movement of the support.
  • an antenna and apparatus electrically connected with the antenna and comprising a support, a frame pivotally and loosely mounted on the support so as torretain its vertical position, regardless of tipping movement of the support, a condenser comprising plates fixedly mounted in said frame and cooperating plates mounted in the frame for movement relatively in the fixed plates, and connections between the support and the movable plates of the condenser for adjusting the movable plates with respect to the fixed plates upon tipping movement of the support.
  • an antenna, and apparatus comprising a support, a frame freely mounted on the support so as to retain a vertical position regardless of tipping movement of the support, a variable reactance device mounted in the frame and electrically connected with'the antenna and connections between the support and the reactance device for adjusting the device in accordance with the extent of tipping movement of the support.
  • an antenna and apparatus comprising a support, a frame freely mounted on the support so as toretain a vertical position regardless of tipping movement of the support, av reactance device electrically connected with the antenna and comprising elements fixedly mounted in the frame and cooperating elements mounted in the frame for movement relatively to the fixed elel ments, and connections between the support and the movable elements of the reactance device for adjusting the movable elements with respect to the fixedv elements upon tipping movement of the support,
  • an antenna, and apparatus comprising a support, a frame freely mounted the extent of tipping movement of the-sup on the support so as to retain a. vertical port, and means for damping movements of 10 position regardless of tipping movement of the frame relatively to the support.

Description

Nov. 10, 1925' 1,561,228
J. H. HAMMOND, JR
CAPACITY COMPENSATING DEL'VICE Filed-Feb. l6. 9 2 Sheets-Sheet 1 HIS/IUUR/VEV I Nov. 10, 1925- J. H. HAMMOND, JR
CAPACITY COMPENSATING DEVICE Filed Feb. 16, 1921 k Sheets-Sheet 2 IIVI/E Patehted Nov'. 10,1925.
UNITED STATES PATENT OFFICE.
CAPACITY comr'nnsarma nnv'rcn.
Application filed February 16, 1921.; Serial No. 445,498.
To all whom it may concern:
Be it known that I, JOHN HAYS HAM- MOND, Jr., a citizen of the United States, and a resident of Gloucester, county of Essex, and State of Massachusetts, have invented certain new and useful Improvements in Capacity Compensating Devices, of which the following is a speci cation.
Some of the objects ofthe present invention are to provide means for compensating for variations in the capacity of an antenna circuit caused by changes in the effective height of the antenna due, for example, to the roll or tipping movement of a ship or other body on which the antenna is mounted; to provide means for automatically varying the capacity of part of an antenna circuit to compensate for changes in the.
capacity of the antenna caused by changes in its position; to provide means for automatically varying the inductance of an an tenna circuit'to offset the change in its value due to a change of capacity caused by movement of the antenna as, for example, by the roll of a shi varying the proximity of the antenna to tlie water; and to provide other vimprovements which will hereinafter appear.
a perspective view in normal position'of one form of the present invention arranged to compensate for variations 1n the capacity of an antenna circuit caused by the roll ofa vessel supporting. the antenna; Fig. 2
represents the same apparatus under the influence of a roll through an angle; Fig. 3. represents in perspective another form of showing a circuit wherein compensation is In the accompanyingdrawings, Fig. 1 is obtained by means of a variable inductance element.
Referring to the drawings, the form of the present invention shown in Fi'gsJl'and 2 includes a condenser of any vwell-known form enclosed within an instrument box 10. '55 As shown, ,thecondenser has a shaft 11 by which the movable 'plates 12 of the condenser may be rotated with respect to the fixed plates 13.
In order to maintain the box 10 in a sub- .60 stantially vertical position at all times irrespective of angular swing of the body on which it is mounted, it is rovided with a pair ofapertured ears 14 xed at opposite sides respectively of the box l0 and pivoted for swinging movement upon a rod 15 extending transverselyfabove the box 10 and rigidly securedat its ends to side frames 16.
The frames 16 are secured to anysuitable fixed part of the body of a ship, vessel or other movable body provided with an antenna of a wireless system. The construction is such that when the vessel rolls to one side or the other the frames 16 will.
"likewise roll, but the box 10 will remain in:
its normal suspended osition owing to its pivoted connection wit the frames 16.
For operating the movable plates 12 of the condenser'upon such relative movement of the box 10 and the frames 16 a gear segment 17 is rigidly fastened to the rod 15 sothat any swinging movement of the'frames 16 will be transmitted to the segment 17 The gear segment 17 is positioned to mesh with a bevel gear 18 which is fast to the projecting end of theshaft 11.
As a means for damping the effect of the aforesaid swinging action, an'arm 20 'carried by the box 10, has its outer free end provided with a friction tracker 21 of any suitable form and material arranged to ride upon a curved track 22 fixed to one of the side frames 16. The'track 22 is of suitable length to allow for any angular movement within the normal limits and has its center of curvature coincident with the rod 15.
In the opleration of this form of the invention, it wi be obvious that any roll of thevessel, for example, through an angle of 30,as indicatedin Fig. 2, will cause the frames 16 and rod to swing relative to the box 10" and thereby cause the gear segment 17 to turn the bevel gear 18, which operates the shaft 11, to vary the capacity of the condenser in the box 10 and thereby compensate for the change in the capacity of the antenna circuit caused by the roll of the vessel bringing the antenna closer to the surface of the water.
Another form of the present invention is shown in Figs. 3 and 4, wherein the compensating mechanism is the same as that heretofore described except that the shaft 11, in this instance, is connected to the movable coil or elements of a variometer 31 of the type having a fixed coil or element 32 with which the movable coil has an interfitting relation, so that any variation in the height of the antenna caused by the roll of the vessel will be accompanied by a compensating change in the inductance of thevariometer, so that a constant wave length of the aerial circuit will be maintained, regardless of changes in the capacity of the antenna due to its movement.
In Figure 5, an open, aerial circuit 32 15 shown including an antenna '33, a primary coil 34 of a transformer 35, a condenser 36 and-a ground connection 37 This circuit s inductively coupled to a secondary circuit and operates ina well-known manner. The
condenser 36 is arranged to be controlled by the compensating means in the form of the invention shown in Figs..1 and 2. The remaining portions of the system are of any be specifically described here.
In Figure 6, the circuits are generally similar to those shown in Figure 5, but here an inductance 40 is employed in accordance with the form of the invention shown in Figures 3- and 4:, and the compensation for variations in the height of the antenna is effected by variation of-this inductance 40. Having thus fully described my invention, I claim:
1. In a wireless apparatus, an antenna operatively mounted upon a movable body,
- aicircuit including said antenna, and means for automatically compensating for variations in capacity of said antenna circuit due to movement of saidbody.
2. In a compensating device, an antenna operatlvely mounted upon a vessel, an aerial circuit includmg said antenna, and means for automatically compensating for 'varia-. tions in the capacity ofsaid antenna. I
3. In a compensating device, an antenna operatively mounted upon a vessel, an aerial circuit including said antenna, and means operated by :the' roll of said vessel for compensating for variations .in the capacity of said antenna circuit resulting from variasaidmovement so tions in the height of said antenna caused by the roll of said vessel.
4. In a compensating device, an antenna operatively mounted upon a vessel, an aerial circuit including said antenna and means for automatically varying the electrical characteristics of saidcircuit in accordance with variations in the capacity of said antenna to ground so as to keep the Wave length of the antenna circuit substantially constant.
5. In a compensating device, an antenna operatively mounted upon a vessel, an aerial circuit including said antenna and means operated by the roll of said vessel for varyin the electrical characteristics of said circuit in accordance with variations in capacity of said antenna caused by the roll of said vessel so as to keep the wave length of the antenna circuit substantially constant.
6. In combination with an antenna movable relatively to the earths surface, an aerial circuit including said antenna and means operated in synchronism with the movement of said antenna for varying the electrical characteristics of said circuit so as to keep the wave length of said circuit substantially constant.
- 7. In combination with an antenna movable with respect to the earths surface, a circuit controlled thereby and means operated in synchronism with the movement of said antenna for keeping the circuit tuned to a substantially constant wave length.
8. In combination with a movable antenna arranged to intercept radiant energy, a circuit tuned to the frequency of desired re- .ceived oscillations and means operated in synchronism with the movement of said antenna for varying the electrical characteristics of said circuit so as to compensate for variations in capacity of said antenna caused by the movement thereof.
'9. In a compensating device, an antenna .operativelymounted upon a movable body,
an aerial circuitfincluding said antenna and means operated upon movement ofsaid.
body for varying the electrical characterist cs of said circuitin accordance with variations in capacity of the antenna circuit substantially constant." 11. In combination with an antenna and a member mounted for free movement relatively thereto, an aerial circuit including said antenna and means operated in synchronism with the relative movement of said of said antenna causedby as to keep the wave length antenna and saidmember for varying the electrical characteristics of said circuit so as to keep the wave length of said circuit substantially constant.
' 12. In combination with an antenna and a member mounted for free movement relatively thereto under the action of gravity, a
circuit controlled by the antenna thereby P and means operated in synchronism with the relative movement of said antenna and said member for varying the electrical char acteristicsof said circuit. v
13. In combination with a variable capacitance arranged to intercept radiant energy, a circuit tuned to the frequency of desired received oscillations and means operated in synchronism with variations 0 said capacitance for varying the electrical characteristics of said circuit so as tocompensate for variations in capacity of said capacitance.
14. In a compensating device, an antenna operatively mounted upon a vessel, an aerial circuit including said antenna, and means including a support fixed to said vessel and a member freely suspended from said support for automatically varying the capacity of a part of the antenna circuit in accordance with variations in capacity of said antenna caused by the roll of said vessel.
15. In an arrangcmentof the class described, an antenna mounted for tipping movement in a vertical plane, a support movable with the antenna, a variable reactance device electrically connected with the antenna, and connections between the support and the reactance device for adjusting the reactance device to compensate for vari ations in the capacity of the antenna caused by tipping movement of the antenna.
16. In an arrangement of the class described, a movable antenna, a support mounted for movement with the antenna, a variable reactance device mounted on the support and electrically connected with the antenna, and connections between the support and the reactance device for adjusting the reactance device ,to compensate for changes in the capacity of the antenna caused by its movement.
17. In an arrangement of the class described, anantenna and apparatus including a support, a reactance-device electrically connected with the antenna and comprising relatively movable parts,'said device being mounted on the support, and connections between the support and certain of the parts of the reactance device for efiecting relative movement of said first-mentioned parts in accordance with movement of the support of a predetermined character.
18. In an arrangement of the class described, an antenna and apparatus comprising a support, a condenser mounted on the antenna,'said condenser including relatively fixed and movable plates, and connections between the support and the movable plates of the condenser for moving said last-mentioned plates relatively to the fixed plates in accordance with movement of the suport;
19. In an arrangement of the class described, an antenna and apparatus comprising a support, relatively fixed and movable reactance elements electrically connected with the antenna and pivotally mounted on the support so as to retain their normal positions with respect to the earth by gravity regardless of tipping movement of f the support, and connections between the support and the movable reactance elements for effecting movement of said elements relatively to the fixed elements in accordance with the extent of tipping movement of the support.
20. In an arrangement of the class described, an antenna and apparatus electrically connected with the antenna and comprising a support, a frame pivotally and loosely mounted on the support so as torretain its vertical position, regardless of tipping movement of the support, a condenser comprising plates fixedly mounted in said frame and cooperating plates mounted in the frame for movement relatively in the fixed plates, and connections between the support and the movable plates of the condenser for adjusting the movable plates with respect to the fixed plates upon tipping movement of the support.
21. In an arrangement ofthe class described, an antenna, and apparatus comprising a support, a frame freely mounted on the support so as to retain a vertical position regardless of tipping movement of the support, a variable reactance device mounted in the frame and electrically connected with'the antenna and connections between the support and the reactance device for adjusting the device in accordance with the extent of tipping movement of the support.
22. In an arrangement of the class described an antenna and apparatus comprising a support, a frame freely mounted on the support so as toretain a vertical position regardless of tipping movement of the support, av reactance device electrically connected with the antenna and comprising elements fixedly mounted in the frame and cooperating elements mounted in the frame for movement relatively to the fixed elel ments, and connections between the support and the movable elements of the reactance device for adjusting the movable elements with respect to the fixedv elements upon tipping movement of the support,
.23. In an arrangement of the class described, an antenna, and apparatus comprising a support, a frame freely mounted the extent of tipping movement of the-sup on the support so as to retain a. vertical port, and means for damping movements of 10 position regardless of tipping movement of the frame relatively to the support.
the support, a variable re-actanee device Signedv at New York in the county of 5 mounted in the frame and electrically con- BW rk and S e Of New York this 14th nected with the antenna, connections beday of Feby. A. D. 1921.
tween the support and the reactance device for adjusting the device in accordance with JOHN HAYS HAMMOND, JR.
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3146450A (en) * 1961-02-01 1964-08-25 Gen Bronze Corp Capacity-compensated motor-driven antenna
US5410325A (en) * 1993-08-09 1995-04-25 Caterpillar Inc. Antenna mounting apparatus

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3146450A (en) * 1961-02-01 1964-08-25 Gen Bronze Corp Capacity-compensated motor-driven antenna
US5410325A (en) * 1993-08-09 1995-04-25 Caterpillar Inc. Antenna mounting apparatus

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