US1777796A - Tuning mechanism - Google Patents
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- US1777796A US1777796A US161724A US16172427A US1777796A US 1777796 A US1777796 A US 1777796A US 161724 A US161724 A US 161724A US 16172427 A US16172427 A US 16172427A US 1777796 A US1777796 A US 1777796A
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- H—ELECTRICITY
- H03—ELECTRONIC CIRCUITRY
- H03J—TUNING RESONANT CIRCUITS; SELECTING RESONANT CIRCUITS
- H03J5/00—Discontinuous tuning; Selecting predetermined frequencies; Selecting frequency bands with or without continuous tuning in one or more of the bands, e.g. push-button tuning, turret tuner
- H03J5/02—Discontinuous tuning; Selecting predetermined frequencies; Selecting frequency bands with or without continuous tuning in one or more of the bands, e.g. push-button tuning, turret tuner with variable tuning element having a number of predetermined settings and adjustable to a desired one of these settings
- H03J5/14—Discontinuous tuning; Selecting predetermined frequencies; Selecting frequency bands with or without continuous tuning in one or more of the bands, e.g. push-button tuning, turret tuner with variable tuning element having a number of predetermined settings and adjustable to a desired one of these settings operated by auxiliary power
- H03J5/146—Settings desired by a switch controlled together with the tuning member and which stops the control as soon as a desired position is reached
Definitions
- My invention has for its object mechanism which may be manually set in accordance with any desired tuning result and will there after initiate the necessary mechanical movement and which movement will then be completed to the accurate predetermined point.
- a further object is a mechanism of the character described especially adapted to the adjusting of the several tuning elements of a radio receiving set, although the invention is also applicable to operate and bring into tune other mechanical devices.
- a further object is a mechanism of the character described which, when once set into operation Will automatically continue until it has completed its predetermined degree of movement.
- a further object is a mechanism of the character described wherein a plurality of tuning elements may all be brought into synchronism for a predetermined wave length.
- a further object is a mechanism of the character described wherein the movement of the tuning elements is dependent upon a series of consecutively connected elements adapted to'difl'erent rates and degrees of angular movement, enabling a micrometer adjustment of each connected tuning element.
- Fig. 1 shows in prospective and-partly diagrammatic one form of mechanism embodying my invention, with certain of the parts left off to better show the mechanism and its operation.
- Figs. 2 and 3 are side and front views of certain of the cam members with the spring contact arms and rollers.
- Fig. 4 is a diagrammatic showing of the circuitlconnections adapted for three predetermined wave lengths and for operating any one of the tuning elements on a conventional radio set, and with bus connections for other tuning elements.
- Fig. 5 is a diagrammatic showing of the circuit connections for operating one of the tuning elements and for automatically setting the mechanism to a selected wave length.
- Figs. 6, 7 and 8 are fragmentar views shotwing the progressive operations 0 the circui Figs. 9, 10, 11 and 12 show an alternate construction of cam discs and associated parts and circuit connections for controlling the magnetic clutch 29 and motor 15.
- Fig. 9 shows the front view of a series of three discs on the periphery of which rides a carriage through the medium of four rollers. To the carriage and projecting upward are four springs which engage contacts at the upper part of the assembly.
- Fig. 10 shows the side view of Fig. 9 with the series of three discs and corresponding carriage and two of the springs which engage contacts at the u per part of the assembly.
- Fig. 11 is part y a plan view of Fig. 10 and a sectional view of Fig. 9 along the line IX-IX.
- Fig. 12 is a diagram of the electrical connections of the mechanism of Figs. 9, 10 and 11.
- an operating motor is shown by the numeral 15 adapted to operate the common shaft. 16 provided with friction discs 17 18, 19, which in turn are each adapted to actuate a train of mechanism controlling the movement of a tuning element 21 in a conventional radio set '20.
- a con ventional radio set one of whose tuning elements is indicated by the variable condenser 21.
- the capacity of this condenser is varied by the rotation of one set of its plates on the shaft 22 and this shaft is actuated through a gear train 23 to the higher speed shaft 24 which in turn, is actuated through the gear train 25 from the-shaft-26.
- Disc for operating a similar train of mechanism up to other tuning elements of the radio set 20 are shown at 31, and 32 .which in turn are actuated through the magnetic clutches 33 and 34 respectively.
- Each of the discs 35 to 43 inclusive is rotatively mounted on its respective shaft and may be locked in position by any conventional means as by the set screw 54. See Fig. 2. Likewise each of the discs is provided with a depression or cam surface, one of which is shown at 55, another at 56 and a third one at 57.
- the motor 15 serves to actuate a lurality of tuning mechanisms and there ore as many tuning elements as may be desired and continues to rotate only during the period of adjustment of any of the tuning elements.
- the relay 63 is now energized from the battery 61 setting into operation the motor 15 and shaft 16 of Fig. 1.
- Magnetic clutch 29 is now energized,and the arms 45, 48 and lastly 51 riding on the high portion of the discs 35, 38 and lastly 41 respectively.
- the lead 65 which completes a'cireuit through the relay 62 and which now holds its armature retracted and in the position initiated by the kev 60 until there is a progression of the discs 35, 38, 41 to their final positions although the key 60 may be released in the interim.
- the shaft 22 is now revolving at the slow est speed and therefore the magnetic clutch 29 will, through connecting up the shafts 22, 24, 26 and 28 with the rotating shaft 16, cause the discs 35, 38 and 41 to revolve until the cam slot 55 rides under the arm 45.
- the disc 41 will now continue to revolve a fraction of a revolution until its cam slot 57 rides under the arm 51.
- the circuit through the magnetic clutch 29 and relay 62 will now be broken and the armature of the relay 62 will release causing the contacts to be shifted from the positions shown in Figs. 6 and 7 to the position shown in Fig. 8 and the adjustment of tuning element 20 is complete.
- the relay 63 will be de-energized and the motor 15 will stop.
- Key 93 is the filament control switch on the conventional radio set, energization to the set being furnished over leads 94 and 95 through the series contacts on the control relays such as 62. This arrangement is made to prevent undesirable noises being reproduced by the radio receiver While the tuning elements are passing over other and undesired wave lengths.
- a key for automatically setting the tuning mechanism of the set 20 to a second selected wave length is shown at 90 and a further key for a third selected wave length at 91, these being adapted respectively to .actuate the cam discs 36, 39, 42 and discs 37, 40, 41 of Fig. 1, through a similar group of connections to that described above.-
- Bus connections are shown on the right of Fig. 4 by the numerals 1' to 12 inclusive, corresponding with the bus connections 1 to 12 inclusive on the left of the figure and actuating the condenser 21 through the shaft 22, it being understood that there ,are cam and actuating mechanism and circuit connections whose operation is initiated by the friction disc 31 therefor, and that the bus bars shown broken at the right of Fig. 4 may be continued on and other circuit connections made therewith for as many tuning element circuits as desired.
- roller 122 rides on the periphery of disc 41 and roller 123 rides on the periphery of disc 38 both rollers being attached to carriage 113 and revolving in opposite directions on a common shaft.
- roller 124 rides on the periphery of disc 35 and roller 125 rides on the periphery of disc 38' both rollers being attached to carriage 113 and revolving in opposite directions on a common shaft.
- Figs. 9, 10, and 11. the carriage is shown in a down position and contact springs 101 and 102 are in contact with conductor 106 and the circuit is closed between terminals 3 and 4 as shown in Fig. 12.
- Discs 35, 38 and 41 are connected through their shafts to a gear train as described in connection with Fig. 1.
- the carriage 113 is limited to an up and down motion only by the plunger 112 which fits snugly into a socket in the block 121 and by the guide 111.
- a downward pressure against plunger 112. is maintained by coil spring 115.
- a vent hole 116 is provided to eliminate air pressure behind plunger 112.
- Screw 119 connects conductor 105 with terminal lug 2.
- the terminals 1. 3, 4, 13 and 2 in Fig. 12 correspond with the same numbered terminals in Fig. 4.
- the assembly shown in Figs. 9. 10 and 11 is an alternative means to that shown in Figs. 2 and 3 and the upper portion of Fig. 4 for controlling the operation of the magnetic clutch 29 and motor 15.
- Automatic adjusting apparatus adapted to tune a radio set.
- said apparatus comprising a plurality of movable -elements, mechanism constructed and adapted for moving said elements.
- an electric circuit and contact arm means adapted to control said circuit. cam surfaces on said elements with which said arm means engage to break said circuit only when said elements are in a predetermined position, and to retain said circuit energized when any of said elements are in any other position, and wherein said elements in-.
- discs adjustably mounted on shaft means, said shaft means adapted to engage a tuning element of said radio set and wherein said mechanism includes motor means and an electricclutch energized by said circuit and adapted to engage said shaft means with said motor means to operate said discs.
- mechanism for actuating said tuning devices comprising a shaft means for each and en gaging each of said devices, motor means adapted to actuate the plurality of said shaft means, a clutch between each shaft means and said motor means. cam elements on each shaft means. connections engaging the cam elements of each shaft means constructed and adapted to operate the corresponding clutch to disengage the respective shaft means from the motor means when the cam elements on the respective shaft means have been moved to a single adjusted position.
- mechanism for actuating said tuning devices comprising a shaft means for each and engaging each of said devices, motor means adapted to actuate the plurality of said shaft means, a clutch between each shaft means and said motor means, c'am elements on each shaft means, connections engaging the cam elements of each shaft means constructed and adapted to operate the corresponding clutch to disengage the respective shaft means from the motormeans when the cam elements on the respective shaft means have been moved to a single adjusted position and instrumentalities operating to de-energize said motor means when all of said tuning devices have-arrived at a predetermined position.
- mechanism for actuating said tuning devices comprising a shaft means for each and engaging each of said devices, motor means adapted to actuatethe plurality of said shaft means, a clutch between each shaft means and said motor means. cam elements on each shaft means, connections engaging the cam elements of each shaft means constructed and adapted to operate the corresponding clutch to disengage the respective shaft means from the motor means when the cam elements on the respective shaft means have been moved to a single adjusted position and instrumentalities operating to de-energize said motor means and also to connect said apparatus into radio operative relation when all of said tuning devices have arrived at their predetermined position.
- a radio receiving set having a plurality of tuning devices, a plurality of instrumentalities each adapted to independently adjust one of said devices to a predetermined wave length, a starting key and a relay adapted to operate said instrumentalities only to a position corresponding to said predetermined wave length and other instrumentalities and other starting keys and relays to adjust said devices to.
- a radio receiving set having a plurality of tuning devices, a plurality of instrumentalities each adapted to independently adjust one of said devices to a predetermined wave length, a starting key and a relay adapted to operate said instrumentalities only to a position corresponding to said predetermined wave length and other instrumentalities and other starting keys and relays to adjust said devices to other wave lengths, a motor means common to all of said instrumentalities and a clutch elements, arm means engaging said surfaces and adapted to break said circuit only when said elements are in a predetermined position and to retain said circuit energized when any of said elements are in any other position, and wherein said elements include discs adjustably mounted on shaft means,
- said shaft means being adapted to engage a tuning element of said radio set.
- mechanism for actuating said devices comprising a shaft means for each and engaging each of said devices, motor means adapted to actuate the plurality of saidshaft means, a clutch between each shaft means and said motor means, cam elements on each shaft means, connections engaging the cam elements of each shaft means constructed and adapted to operate the corresponding clutch to disengage the respective shaft means from the motor means when the cam elements on the respective shaft means have been moved to a single adjusted position.
- tuning means comprising 'a stationary element and a movable element, a shaft adapted to actuate said movable element, power means adapted to actuate said shaft, an energizing circuit for said power means, switch means in said energizing circuit, an adjustable arm carried by said shaft for actuating said switch means, a relay having contacts in said energizing circuit,
Description
Oct. 7, 1930. L. s. HUBBELL TUNING HECHANI SH Filed Jan. 18, 1927 4 Sheets-Sheet 1 Oct. 7, 1930. L. s. HUBBELL 1,777,796
TUNING IECHANISI Filed Jan. 18. 1927 4 Shoots-Sheet 2 FIG.4
INVENTOK Oct. 7, 1930. L. s. HUBBELL TUNING MECHANISM Filed Jan. 18. 1927 4 Sheets-Sheet 3 Oct. 7, 1930.
L. S. HUBBELL TUNING IECHANISI Filed Jan. 18. 1927 4 Shuts-Sheet 4 FIG.
INVENTOR FIG. 8
A Patented Oct. 7, 1930 UNITED STATES- LEROY S. HUBBELL, 01 SAN FRANCISCO, CALIFORNIA TUNING MECHANISM Application filed January 18, 1927- Serial No. 161,724.
My invention has for its object mechanism which may be manually set in accordance with any desired tuning result and will there after initiate the necessary mechanical movement and which movement will then be completed to the accurate predetermined point.
A further object is a mechanism of the character described especially adapted to the adjusting of the several tuning elements of a radio receiving set, although the invention is also applicable to operate and bring into tune other mechanical devices.
A further object is a mechanism of the character described which, when once set into operation Will automatically continue until it has completed its predetermined degree of movement.
A further object is a mechanism of the character described wherein a plurality of tuning elements may all be brought into synchronism for a predetermined wave length.
A further object is a mechanism of the character described wherein the movement of the tuning elements is dependent upon a series of consecutively connected elements adapted to'difl'erent rates and degrees of angular movement, enabling a micrometer adjustment of each connected tuning element.
By referring to the accompanying drawings and description my invention will be made clear.
While I have herein shown and described a conventional radio receiving set with my invention applied thereto, it is to be understood that. other forms of tuning elements may be employed in combination with my invention and also my invention may be employed for automatically adjusting other devices and forms of mechanism to a predetermined setting, with a high degree of accuracy.
Fig. 1 shows in prospective and-partly diagrammatic one form of mechanism embodying my invention, with certain of the parts left off to better show the mechanism and its operation.
Figs. 2 and 3 are side and front views of certain of the cam members with the spring contact arms and rollers.
Fig. 4 is a diagrammatic showing of the circuitlconnections adapted for three predetermined wave lengths and for operating any one of the tuning elements on a conventional radio set, and with bus connections for other tuning elements.
Fig. 5 is a diagrammatic showing of the circuit connections for operating one of the tuning elements and for automatically setting the mechanism to a selected wave length.
Figs. 6, 7 and 8 are fragmentar views shotwing the progressive operations 0 the circui Figs. 9, 10, 11 and 12 show an alternate construction of cam discs and associated parts and circuit connections for controlling the magnetic clutch 29 and motor 15.
Fig. 9 shows the front view of a series of three discs on the periphery of which rides a carriage through the medium of four rollers. To the carriage and projecting upward are four springs which engage contacts at the upper part of the assembly.
Fig. 10 shows the side view of Fig. 9 with the series of three discs and corresponding carriage and two of the springs which engage contacts at the u per part of the assembly.
Fig. 11 is part y a plan view of Fig. 10 and a sectional view of Fig. 9 along the line IX-IX.
Fig. 12 is a diagram of the electrical connections of the mechanism of Figs. 9, 10 and 11.
Referring to'Fig. 1, an operating motor is shown by the numeral 15 adapted to operate the common shaft. 16 provided with friction discs 17 18, 19, which in turn are each adapted to actuate a train of mechanism controlling the movement of a tuning element 21 in a conventional radio set '20.
In the present example there are supposed to be three such tuningelements and I have shown the apparatus as adapted to automatically set the three tuning elements to any one of three predetermined wave lengths.
It is to be understood however, that my apparatus is adapted to actuate any number of tuning elements and to automatically shift or position the said tuning elements to correspond with any number of predeter- At 20 is shown diagrammatically, a con ventional radio set, one of whose tuning elements is indicated by the variable condenser 21. The capacity of this condenser is varied by the rotation of one set of its plates on the shaft 22 and this shaft is actuated through a gear train 23 to the higher speed shaft 24 which in turn, is actuated through the gear train 25 from the-shaft-26.
The latter is brought into operation through the gear train 27 by the high speed shaft 28 when the conventional magnetic clutch at 29 is energized, pulling the disc '30 against the rotating friction wheel 17.
Disc for operating a similar train of mechanism up to other tuning elements of the radio set 20 are shown at 31, and 32 .which in turn are actuated through the magnetic clutches 33 and 34 respectively.
On the shaft 22, I have shown three discs 35, 36, 37 and on the shaft 24, three other discs 38, 39 and 40 and on the shaft 26 three similar discs 41, 42 and 43.
Bearing on the peripheries of these discs are rollers and arms 45, 46, 47, 48, 49, 50, 51, 52, and 53.
These groups of three cams each on shafts 22, 24 and 26 are operated at different speeds from the motor 15 and the arms 45 to 53 in elusive operate-the spring contacts shown in detailin Figs. 2 and 3'and diagrammatically in Figs. 4, 5, 7 and 8.
Each of the discs 35 to 43 inclusive is rotatively mounted on its respective shaft and may be locked in position by any conventional means as by the set screw 54. See Fig. 2. Likewise each of the discs is provided with a depression or cam surface, one of which is shown at 55, another at 56 and a third one at 57.
When the arm 45 riding on the periphery.
of the disc 35 falls into the cam slot as indicated in the dotted position of Fig. 2 a series'eircuit through the contacts 156 and 157 is partly established and a parallel circuit through the contacts 158, 159 and 160 is broken.
When the mechanism is started to automatically adjust the tuning element 21 of the radio set.20 for a predetermined wave length, corresponding to the settings of the discs 35, 38 and 41; the resulting action will be as follows:
The motor 15 serves to actuate a lurality of tuning mechanisms and there ore as many tuning elements as may be desired and continues to rotate only during the period of adjustment of any of the tuning elements.
Referring to the circuit connections in Figs. 4 and 5, assuming now that we are desirous of setting the'tuning elements for our radio set in accordance with the predetermined wave length corresponding with the key 60. This key is first depressed, energizing the relay 62 from the battery 61, which thereupon actuates its armature to close the circuits to operate the mechanism as indicated in Figs. 6 and 7.
The relay 63 is now energized from the battery 61 setting into operation the motor 15 and shaft 16 of Fig. 1.
Magnetic clutch 29 is now energized,and the arms 45, 48 and lastly 51 riding on the high portion of the discs 35, 38 and lastly 41 respectively. Likewise there is a circuit through the lead 65 which completes a'cireuit through the relay 62 and which now holds its armature retracted and in the position initiated by the kev 60 until there is a progression of the discs 35, 38, 41 to their final positions although the key 60 may be released in the interim.
The circuit connections controlled by the arms 45, 48 and 51 are parallel respectively and therefore the contacts will be retained in the positionshown in Figs. 2, 4, and 5 until all three of the arms 45, 48 and 51 fall into their respeetive'cam slots.
If any one of them be retained upon the full diameter of its cam disc the circuit condition just described will be maintained.
The shaft 22 is now revolving at the slow est speed and therefore the magnetic clutch 29 will, through connecting up the shafts 22, 24, 26 and 28 with the rotating shaft 16, cause the discs 35, 38 and 41 to revolve until the cam slot 55 rides under the arm 45.
Thereafterdisc 38 will continue to revolve a fraction of its revolution and more than one revolution of disc 41 until cam slot 56 rides under the arm 48. v
The disc 41 will now continue to revolve a fraction of a revolution until its cam slot 57 rides under the arm 51. The circuit through the magnetic clutch 29 and relay 62 will now be broken and the armature of the relay 62 will release causing the contacts to be shifted from the positions shown in Figs. 6 and 7 to the position shown in Fig. 8 and the adjustment of tuning element 20 is complete.
It may be however, that other tuning elements of the radio set 20 are not yet properly tuned to the desired wave length corresponding with .the key 60 and therefore the relay 62 is being still energized through leads and 71 which are under the control of mechanism actuated from the friction disc 31 of Fig. 1 and which will continue, the detailed connections for which Will be similar to that shown on the left hand of Fig. 4
In Fig. 4 all of the wiring and connections for the left hand portion are for one tuning element, as 21 and all of the right hand upper portion of the figure (which is a mere duplication of the wiring of the left hand side) are for a second and similar tuning element actuated by its respective mechanism from the disc 31 and the wiring may of course be continued to as many tuning elements as desired, the several groups of connections for the several tuning elements being in parallel with each other.
When therefore. the last of the tuning elements has been adjusted as described for the tuning element 21 the circuit flowing through the leads 70, 71 will be broken.
The relay 63 will be de-energized and the motor 15 will stop.
When all of the tuning elements have arrived at their final adjusted position, the arms riding on their respective discs will be in the depressed cam portions and contacts 156 and 157 of Fig. 2 will be closed. These contacts are all in series and complete a circuit from the released relay 62 over leads 75 and 76 through lamp 77 and relay 78, lighting lamp 77 and energizing relay 78. The lighting of lamp 77 indicates the completed set-- ting of the mechanism and the operation of the relay 78 opens a circuit over leads 80 and 79 extinguishing the master display lamp 92 which lights only when the tuning elements are set on a Wave length not covered by the tuning mechanisms.
Key 93 is the filament control switch on the conventional radio set, energization to the set being furnished over leads 94 and 95 through the series contacts on the control relays such as 62. This arrangement is made to prevent undesirable noises being reproduced by the radio receiver While the tuning elements are passing over other and undesired wave lengths.
A key for automatically setting the tuning mechanism of the set 20 to a second selected wave length is shown at 90 and a further key for a third selected wave length at 91, these being adapted respectively to .actuate the cam discs 36, 39, 42 and discs 37, 40, 41 of Fig. 1, through a similar group of connections to that described above.-
Bus connections are shown on the right of Fig. 4 by the numerals 1' to 12 inclusive, corresponding with the bus connections 1 to 12 inclusive on the left of the figure and actuating the condenser 21 through the shaft 22, it being understood that there ,are cam and actuating mechanism and circuit connections whose operation is initiated by the friction disc 31 therefor, and that the bus bars shown broken at the right of Fig. 4 may be continued on and other circuit connections made therewith for as many tuning element circuits as desired.
It will now be apparent that other forms of motor devices than electric motor 15 and shaft 16 With its friction discs 17, 18, 19, may be employed and other forms of clutch mechanism than the magnetic clutches and friction dicsc, also other types of gearing and gear ratios, cams, contact mechanism and arrangement of circuits, or mechanism employing mechanical connections in place of electric circuits may be employed all within the skill of those familiar with this art, without departing from the spirit of my invention and I desire to be understood as claiming all such variations.
In Figs. 9 and 10, the roller 122 rides on the periphery of disc 41 and roller 123 rides on the periphery of disc 38 both rollers being attached to carriage 113 and revolving in opposite directions on a common shaft. The roller 124 rides on the periphery of disc 35 and roller 125 rides on the periphery of disc 38' both rollers being attached to carriage 113 and revolving in opposite directions on a common shaft.
On the platform of carriage 113 are attached, but electrically insulated. four contact springs 101, 102, 103 and 104 These contact springs press .against a non-conducting strip 110 in which are imbedded electrical conductors 105 and 106.
In Figs. 9, 10, and 11. the carriage is shown in a down position and contact springs 101 and 102 are in contact with conductor 106 and the circuit is closed between terminals 3 and 4 as shown in Fig. 12. Discs 35, 38 and 41 are connected through their shafts to a gear train as described in connection with Fig. 1.
When disc 35 moves beyond the position shown in Fig. 9 the carriage 113 is forced upward through the roller 124, contact springs 101, 102, 103 and 104 move upward, springs 101 and 102 break contact with conductor 106 and springs 103 and 104, directly opposite 103, make contact with conductor 105 (see Fig. 12). In this position a circuit is closed from terminal 2 (Fig. 12) to terminals 1 and 13.
The carriage 113 is limited to an up and down motion only by the plunger 112 which fits snugly into a socket in the block 121 and by the guide 111. A downward pressure against plunger 112. is maintained by coil spring 115. A vent hole 116 is provided to eliminate air pressure behind plunger 112.
Screw 119 connects conductor 105 with terminal lug 2.
In Fig. 10 the carriage and contact springs for the adjacent series of 3 discs has been omitted to show more clearly the assembly of block 121, strip 110 and guide 111. Conductors 107, 108 and 109, screw 120, terminal 6 and vent holes 117 and 118 are associated with the adjacent plurality of discs.
The terminals 1. 3, 4, 13 and 2 in Fig. 12 correspond with the same numbered terminals in Fig. 4. The assembly shown in Figs. 9. 10 and 11 is an alternative means to that shown in Figs. 2 and 3 and the upper portion of Fig. 4 for controlling the operation of the magnetic clutch 29 and motor 15.
I claim:
1. Automatic adjusting apparatus adapted to tune a radio set. said apparatus comprising a plurality of movable -elements, mechanism constructed and adapted for moving said elements. an electric circuit and contact arm means adapted to control said circuit. cam surfaces on said elements with which said arm means engage to break said circuit only when said elements are in a predetermined position, and to retain said circuit energized when any of said elements are in any other position, and wherein said elements in-.
clude discs adjustably mounted on shaft means, said shaft means adapted to engage a tuning element of said radio set and wherein said mechanism includes motor means and an electricclutch energized by said circuit and adapted to engage said shaft means with said motor means to operate said discs.
2. In radio apparatus having a plurality of tuning devices for adjusting said apparatus to operate on different wave lengths, mechanism for actuating said tuning devices comprising a shaft means for each and en gaging each of said devices, motor means adapted to actuate the plurality of said shaft means, a clutch between each shaft means and said motor means. cam elements on each shaft means. connections engaging the cam elements of each shaft means constructed and adapted to operate the corresponding clutch to disengage the respective shaft means from the motor means when the cam elements on the respective shaft means have been moved to a single adjusted position.
3. In radio apparatus having a plurality of tuning devices for adjusting said apparatus to operate on different wave lengths, mechanism for actuating said tuning devices comprising a shaft means for each and engaging each of said devices, motor means adapted to actuate the plurality of said shaft means, a clutch between each shaft means and said motor means, c'am elements on each shaft means, connections engaging the cam elements of each shaft means constructed and adapted to operate the corresponding clutch to disengage the respective shaft means from the motormeans when the cam elements on the respective shaft means have been moved to a single adjusted position and instrumentalities operating to de-energize said motor means when all of said tuning devices have-arrived at a predetermined position.
4. In radio apparatus having a plurality of tuning devices for adjusting said apparatus to operate on different wave lengths, mechanism for actuating said tuning devices comprising a shaft means for each and engaging each of said devices, motor means adapted to actuatethe plurality of said shaft means, a clutch between each shaft means and said motor means. cam elements on each shaft means, connections engaging the cam elements of each shaft means constructed and adapted to operate the corresponding clutch to disengage the respective shaft means from the motor means when the cam elements on the respective shaft means have been moved to a single adjusted position and instrumentalities operating to de-energize said motor means and also to connect said apparatus into radio operative relation when all of said tuning devices have arrived at their predetermined position.
5. In combination with a radio receiving set having a plurality of tuning devices, a plurality of instrumentalities each adapted to independently adjust one of said devices to a predetermined wave length, a starting key and a relay adapted to operate said instrumentalities only to a position corresponding to said predetermined wave length and other instrumentalities and other starting keys and relays to adjust said devices to.
other wave lengths, a motor means common to all of said instrumentalities and a clutch connecting the instrumentalities of each of said devices to said motor means when any starting key is operated and disconnecting said clutch when the device has arrived at the corresponding predetermined wave length.
6. In combination with a radio receiving set having a plurality of tuning devices, a plurality of instrumentalities each adapted to independently adjust one of said devices to a predetermined wave length, a starting key and a relay adapted to operate said instrumentalities only to a position corresponding to said predetermined wave length and other instrumentalities and other starting keys and relays to adjust said devices to other wave lengths, a motor means common to all of said instrumentalities and a clutch elements, arm means engaging said surfaces and adapted to break said circuit only when said elements are in a predetermined position and to retain said circuit energized when any of said elements are in any other position, and wherein said elements include discs adjustably mounted on shaft means,
said shaft means being adapted to engage a tuning element of said radio set.
8. In radio apparatus having aplurality of adjustable devices, mechanism for actuating said devices comprising a shaft means for each and engaging each of said devices, motor means adapted to actuate the plurality of saidshaft means, a clutch between each shaft means and said motor means, cam elements on each shaft means, connections engaging the cam elements of each shaft means constructed and adapted to operate the corresponding clutch to disengage the respective shaft means from the motor means when the cam elements on the respective shaft means have been moved to a single adjusted position.
9. In automatic radio tuning mechanism, the combination of tuning means comprising 'a stationary element and a movable element, a shaft adapted to actuate said movable element, power means adapted to actuate said shaft, an energizing circuit for said power means, switch means in said energizing circuit, an adjustable arm carried by said shaft for actuating said switch means, a relay having contacts in said energizing circuit,
a second circuit and a single impulse key adapted to initially actuatesaid relay, said relay also energized by said first named circuit to retain said relay contacts closed and said first named circuit energized until the power means has actuated said movable elev ment to a redetermined tuned position when means has broken the first named LEROY S. HUBBELL.
said switc circuit.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US161724A US1777796A (en) | 1927-01-18 | 1927-01-18 | Tuning mechanism |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US161724A US1777796A (en) | 1927-01-18 | 1927-01-18 | Tuning mechanism |
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US1777796A true US1777796A (en) | 1930-10-07 |
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US161724A Expired - Lifetime US1777796A (en) | 1927-01-18 | 1927-01-18 | Tuning mechanism |
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Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2472536A (en) * | 1947-11-25 | 1949-06-07 | Philco Corp | Tuning indicator system |
US2476673A (en) * | 1947-10-02 | 1949-07-19 | Collins Radio Co | Shaft positioning control system |
US2522881A (en) * | 1947-01-23 | 1950-09-19 | Bendix Aviat Corp | Clutch for disks of remote-control systems |
US2567325A (en) * | 1949-03-30 | 1951-09-11 | Harold F Elliott | Apparatus for positioning a rotary controlled element |
US2588107A (en) * | 1950-02-06 | 1952-03-04 | William C Grabau | Integrating counter |
US2645321A (en) * | 1948-07-15 | 1953-07-14 | Collins Radio Co | Automatic tuning control for radio apparatus and the like |
US2720619A (en) * | 1949-01-11 | 1955-10-11 | Northrop Aircraft Inc | Automatic resetting positioning control |
US3164233A (en) * | 1962-12-17 | 1965-01-05 | Western Electric Co | Plural revolution clutch |
-
1927
- 1927-01-18 US US161724A patent/US1777796A/en not_active Expired - Lifetime
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2522881A (en) * | 1947-01-23 | 1950-09-19 | Bendix Aviat Corp | Clutch for disks of remote-control systems |
US2476673A (en) * | 1947-10-02 | 1949-07-19 | Collins Radio Co | Shaft positioning control system |
US2472536A (en) * | 1947-11-25 | 1949-06-07 | Philco Corp | Tuning indicator system |
US2645321A (en) * | 1948-07-15 | 1953-07-14 | Collins Radio Co | Automatic tuning control for radio apparatus and the like |
US2720619A (en) * | 1949-01-11 | 1955-10-11 | Northrop Aircraft Inc | Automatic resetting positioning control |
US2567325A (en) * | 1949-03-30 | 1951-09-11 | Harold F Elliott | Apparatus for positioning a rotary controlled element |
US2588107A (en) * | 1950-02-06 | 1952-03-04 | William C Grabau | Integrating counter |
US3164233A (en) * | 1962-12-17 | 1965-01-05 | Western Electric Co | Plural revolution clutch |
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