patents.google.com

US1847030A - System of communication - Google Patents

️Tue Feb 23 1932

US1847030A - System of communication - Google Patents

System of communication Download PDF

Info

Publication number

US1847030A

US1847030A US426860A US42686030A US1847030A US 1847030 A US1847030 A US 1847030A US 426860 A US426860 A US 426860A US 42686030 A US42686030 A US 42686030A US 1847030 A US1847030 A US 1847030A Authority

United States

Prior art keywords

disk

sending

circuit

contacts

members

Prior art date

1930-02-08

Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)

Expired - Lifetime

Application number

US426860A

Inventor

Glenn W Watson

Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

WATSONGRAPH Corp

Original Assignee

WATSONGRAPH CORP

Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)

1930-02-08

Filing date

1930-02-08

Publication date

1932-02-23

1930-02-08 Application filed by WATSONGRAPH CORP filed Critical WATSONGRAPH CORP

1930-02-08 Priority to US426860A priority Critical patent/US1847030A/en

1932-02-23 Application granted granted Critical

1932-02-23 Publication of US1847030A publication Critical patent/US1847030A/en

1949-02-23 Anticipated expiration legal-status Critical

Status Expired - Lifetime legal-status Critical Current

Images

Classifications

- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L19/00—Apparatus or local circuits for step-by-step systems

Definitions

the present invention pertains to a novel system of communication designed for the sending of messages by electrical impulses.
the principal object of the invention is to provide a system of this character which relies on the synchronization of parts of the transmitting and receiving apparatus rather than on the duration of the impulses.
present invention is entirely independent of the duration of impulses and is subject only to the operation of switches, by means of push members pass a given point at the same averceived in code.
a printing mecha nism for cooperating with the impression members is controlled by a circuit responsive to the sending circuit, and the result is that the depression of a push button in line with the pointer causes a recording of the corresponding character by the printing mechanism.
the impression members may have a coded relation to the characters on the sending disk, in which case the recorded messages would be in code; or the impression members may maintain the above mentioned proper relation to the characters, in which case the message may be sent as well as re- These systems are obviously ing confidential messages.
Fig. 2 is an elevation of the sending device
Fig. 3 is a sectional view of the sending device
Fig. 4 is a sectional view of the receiving device.
Fig. 5 is an struction.
the sending or transmitting apparatus comprises a driving device 1, preferably an electrical synchronized chronometer, from which extends ashaft 2. Concentric with the shaft is a panel 3 which is stationary in the illustrated construction where the shaft is vertical. A pointer 4 carried by the shaft passes over the, panel or disk 3 near the forward face thereof.
the member 3 carries a series of push buttons 5 each bearing a different character, and in all carrying all the numerals and the letters of the alphabet as shown in Figure 2. Behind the disk 3 is a fixed panel 6 carrying pairs of spaced contacts 7 and 8 corresponding to and in'line with the push but-tons 5. Each push button when depressed closes the gap between the corresponding contacts 7 and 8.
the disk 3 also carries a series of studs or contacts 9 corresponding to the push buttons 5 and joined by conductors 10 to the corresponding switch contacts 8.
the contacts 7 are connected to a common conductor 11.
the back of the pointer 4 carries a elevation of a modified conspring contact 12'adapted to successively engage the contacts 9 'in the rotative move ment of the'pointer.
a radio transmitter 13 Associated with the sending mechanism is a radio transmitter 13 connected to a conventional antenna 14 and grounded at 15 on the output side in the usual manner.
One of the input terminals of the transmitter is joined by a conductor 16 to the pointer 4, for
the push button representing this character is depressed manually when the pointer 4 registers with it. All the transmitted impulses are alike, regardless of the push button operated and the position thereof, but the receiving apparatus is co-ordinated with the sending apparatus to reproduce only the desired character when the sending apparatus is operated in the manner described.
the receivin apparatus also includes an actuating mem er 20, preferably an electrically operated chronometer and timed exactly in its revolution with the sending chronometer having a rotatable shaft 21 with a pointer or arm 22 mounted thereon.
Adj acent the member 20 is a fixed bracket 23 to which is secured a stub shaft 24.
On the shaft is rotatably mounted a disk 25 carrying a contact stud 26.
the stud 26 is engage able by a spring contact 27 carried by the arm 22.
a ratchet 28 is formed integral with or secured to the disk 25, and on the bracket 23 is suitably supported a solenoid 29 for actuating the ratchet and disk under certain conditions.
a lever 30 is mounted adjacent the solenoid to be attracted when the latter is energized, and this lever carries a pawl 31 adapted to engage and drive the ratchet.
the chronometers 1 and 20 operate in synchronism and to this end may consist of electrically or spring operated clocks controlled in any suitable manner.
the disk 25 carries a series of characters corresponding to those on the push buttons 5, and on the periphery of the disk are mounted impression members 32, such as type,-corresponding to the characters. There is only one operative position for all the members 32 and the characters on the disk 25 are arranged some-' what differently than those on the disk 3 for this reason and also because in one case the disk is stationary and in the other case rotatable, although the relative position of the characters on each disk is the same.
a circuit through the solenoid 29 is made when- .ever the stud 26 is engaged by the contact 27.
This circuit comprises a conductor 33 cons nected to the chronometer 20 and passes through the shaft 21 and pointer 22 to the contacts 27 and 26, through the disk 25 to the bracket,23, thence through a conductor 34 and battery 35 to one of the terminals of the solenoid, and finally from the other terminal of the solenoid through a conductor 36 which returns to the member 20 or the conductor 33.
the solenoid circuit When the contact 27 engages the contact 26, the solenoid circuit is closed, whereupon the lever 30 is attracted and the pawl 31 turns the ratchet 28 and disk 25.
This mechanism is so dimensioned that each stroke of the pawl 31 advances the disk to the extent of the distance between adjacent characters. After different advances, the pointer 22 continues its uniform rotation, and when it again engages the contact 27, another movement of the ratchet and disk 25 is effected.
the average velocity of the disk is equal to that of the arm 22, but is intermittent rather than uniform.
the bracket 23 carries a spring detent 37 adapted to engage in impressions 38 in the face of'the disk and corresponding with the characters thereon. The detent holds the disk stationary between movements and prevents it from overriding on any movement.
a receiving apparatus 40 having an antenna 41 and grounded at 42 in the usual manner and tuned to receive impulses sent out from the aerial 14.
This mode of communication between stations may be replaced by telegraph wires 43 extending from the conductors 16 and 17 into another circuit at the receiving end.
This circuit includes conductors44 and 45 extending from the output terminals of the receiver 40 or from the wires 43, as the case may be.
One of the conductors has an electro-magnet 46 in series therewith, and both conductors are connected to the terminals of a solenoid 47 which has a plunger 48 adapted to be expelled when the solenoid is energized.
the solenoid is directly beneath the position occupied by the lowermost type member 32.
a roll 49 and a roll 50 of paper ribbon 51 At opposite sides of the solenoid 47 are a roll 49 and a roll 50 of paper ribbon 51.
the ribbon passes between the plunger 48 and the lowermost type member and is adapted to be delivered by the roller 49 and a superposed roller 52.
Adjacent the electro-magnet 46 are rollers 53 which carry an inking ribbon 54, a portion of which is in engagement with the lower side of the ribbon 51 directly over the plunger 48.
the shaft of the roller 49 carries a ratchet 55 rotatable with the roller 49. Beneath the electro-magnet 46 is pivoted an armature 56 which has one end articulated to a pawl 57 adapted to propel the ratchet 55 and roller 49.
the armature 56 is attracted by the magnet 46, but the pawl 57 rides idly over the ratchet and has no effeet on the roller 49 or ribbon 51.
the plunger 48 is ejected towards the opposite type member, whereupon the impression of that member is made on the ribbon 51.
the striking end of the plunger 48 is of greater area than the character inscribed on any of the members 32, so that there is an overlapping of the plunger end with respect to the character. The result of this arrangement is the production of an impression on the ribbon 51 even though there be a slight imperfection in the synchronization.
the energization of the circuit is only momentary, and when it is broken, a spring 58 pulls on the pawl 57, thereby turning the roller 49 and bringing a fresh area of ribbon in position over the plunger 48.
Figures 1 and 2 show the character A in position to be transmitted from the sending station and to be printed at the receiving station. Obviously, both stations should be brought into register with each other before sending, and this setting may be made by manual manipulation of the members 4 and 22 or of the chronometers 1 and 20.
the reproduction of a signal on the ribbon 51 is independent of the duration of closing the sending circuit between any pair of contacts 7 and 8, or in fact all such intervals may be of equal duration insofar as can be estimated by the operaso that the characteristics and difliculties of the conventional dot and dash systems are entirely absent in this device.
the operation of the present device depends only on the fact that the characters on the disks 3 and 25 occup like positions with relation to the arm4and p unger 48 respectively at all times, due to the synchronization of the actuating devices. The latter are timed in such a manner that the arm 4 will make-a complete revolution in a few seconds, so that the operator will not be required to wait an unreasonable period between impulses.
the disk carries studs 61, similar to the contact studs 9, for all the characters in each group All studs corresponding to like characters throughout the several groups are connected exclusively to a given conductor 60,-so
each conductor represents a given character regardless of the group in which it is contained.
switches 62 is used for the sending of impulses, and these switches may be of the character already described in connection with Figure 3.
Conductors 63 connect one terminal of each switch separately to the corresponding conductors 60, and the remaining switch terminals are joined into a common conductor 64 corresponding to the conductor 17 in FigureQ.
An arm 65 is caused toturn over the disk and has a conductor 66 extending therefrom and corresponding to the conductor 16 in Figure 2.
the invention is especially useful for sending messages through space without the use of any particular code, either within a build-' ing such as a bank, or over long distances as in sending weather reports or messages to airplanes, balloons, submarines, war' vessels, police cruising cars, sheriff ofices, camps in war time, and in transoceanic communication.
the receiving of the message does not require an operator inasmuch as the message is automatically recorded.
a system of communication comprising a sending disk, a series of operating members carried thereby, a series of contacts and characters associated with said members, a common contact adapted for selective engagement with the first named contacts and mov- 'able relatively to said disk, a radio transmission circuit having one side connected to said, first named contacts and the other side to said common contact, said operating members being adapted to close said circuit on engagement of said common contact with each of the first named contacts and operation of the corresponding operating member, and receiving means for registering impressions of characters corresponding to said operating members on actuation of the latter, and synchronous propelling means for actuating the movable parts of said sending and receiving devices and having an energy source independent of said circuit.
a system of communication comprising a sending disk, a series of operating members carried thereby, a series of contacts and characters associated with said members, a common contact adapted for selective engagement with the first named contacts and movable relatively to said disk, a radio transmission circuit having one side connected to said first named contacts and the other side to said common contact, said operating members being adapted to close said circuit on engagement of said common contact with each of the first named contacts and operation of the corresponding operating member, a receiving disk having characters thereon corresponding to the characters on said sending disk, and means for bringing'said characters into reading position on actuation of the corresponding operating members, and synchronous propelling means for actuating the movable parts of said sending and receiving devices and having an energy source independent of said circuit.
a system of communication comprising a sending disk, a series of operating members carried thereby, a series of contacts and characters associated with said members, a common contact adapted for selective engagement with the first named contacts and movable relatively to said disk, a radio transmission circuit having one side connected to said first named contacts and the other side to said common contact, said operating members being adapted to close said circuit on engagement of said common contact with each of the first named. contacts and operation of the corresponding operating member, a receiving disk, impression members carried by said receiving dlsk and corresponding to the characters on said sending disk, a receiving circuit adapted to respond to said sending circuit, impression means o erable by :said receiving circuit and adapte t cooperate with said impression members, and means for bringing sa1d impression members. into operative position in synchronism with the engagement of said common contact with the first named contacts, said means having an energy source independent of said circuit.
a system of communication comprising a sending disk, a series of operating members carried thereby, a series of contacts and characters associated with said members, a common contact adapted for selective engagement with the first named contacts and movable relatively to said disk, aradio transmission circuit having one side connected to said first named contacts and the other side to said common contact, said operating members being adapted to close said circuit on engagement of said common contact with each of the first named contacts and operation of the corresponding operating member, a receiving disk, impression members carried by said receiving disk and corresponding to the characters on said sending disk, a receiving circuit adapted to respond to said sending circuit, impression means operable by said re- I DCving circuit and adapted to cooperate with sa1d impression members, and synchronized means for bringlng sa1d impression members into operative position with relation to said impression means and for establishing relative movement between said common contact and series of contacts, said means having an energy source independent of said circuit.
a system of communication comprising a sending disk, a series of operating members carried thereby, a series of contacts and characters associated with said members, a common contact adapted for selective engagement with the first named contacts and movable relatively to said disk, a radio transmission circuit having one side connected to said first named contacts and the other side to said common cont-act, said operating members being adapted to close said circuit on engagement of said common contact with each of the first named contacts and operation of the corresponding operating member, a receiving disk, impression members carried by said receiving disk and corresponding to the characters on said sending disk, a receiving circuit adapted to respond to said sending circuit, impression means operable by said receiving circuit and adapted to cooperate with said impression members, a single contact carried by said receiving disk, a movable contact adapted to engage said single contact, a relay mechanism operable by engagement between said last named contacts to advance said receiving disk the distance between the successive impression members and to advance the single contact from the movable contact, and means for moving said movable contact in synchronism with the engagement of said common contact with said series of
a system of communication comprising a sending disk, a series of operating members carried thereby, a series of contacts and characters associated with said members, a common contact movable over and engageable with said series of contacts, a radio transmission circuit having one side connected to said first named contacts and the other side to said common contact, said operating members being adapted to close said circuit on engagement of said common contact with each of the first named contacts and operation of the corresponding operating member, a receiving disk, impression members carried by said receiving disk and corresponding to the characters on said sending disk, a receiving circuit adapted to respond to said sending circuit, impression means operable by said receiving circuit and adapted to cooperate with said impression members, and means for bringing said impression members into operative position in synchronism with the engagement of said common contact with the first named contacts, said last named means having an energy source independent of said circuit.
a system of communication comprising a sending disk, a series of operating members carried thereby, a series of contacts and characters associated with said members, a common contact movable over and engageable with said series of contacts, a radio transmission circuit having one side connected to said first named contacts and the other side to said common contact, said operating members being adapted to close said circuit on engagement of said common contact with each of the first named contacts and operation of the corresponding operating member, a receiving disk, impression members carried by said receiving disk and corresponding to the characters on said sending disk, a receiving circuit adapted to respond to said sending circuit, impression means operable by said receiving circuit and adapted to cooperate with said impression members, and synchronized means for bringing said impression members into operative position with relation to said impression means and for moving said common contact over said series of contacts, said synchronized means having an energy source independent of said circuit.
a system of communication comprising a sending disk, a series of operating members carried thereby, a series of contacts and characters associated with said members, a common contact movable over and engageable with said series of contacts, a radio transmission circuit having one side connectedto said first named contacts and the other side to said common contact, said operating members being ada ted to close said circuit on engagement 0 said common contact with each of the first named contacts and operation of the corresponding operating member, a receiving disk, impression members carried by said receiving disk and corresponding to the characters on saidsending disk, a receiving circuit adapted to respond to said sending circuit, impression means operable by said receiving circuit and adapted to cooperate with said impression members, a single contact carried by said receiving disk, a movable contact adapted .to engage said single contact, a relay mechanism operable by engagement between said last named contacts to advance said receiving disk the distance between the successive impression members and to advance the single contact from the movable contact, and means for moving said movable contact and common contact in synchronismwith the engagement of said common contact with

Landscapes

Engineering & Computer Science (AREA)
Computer Networks & Wireless Communication (AREA)
Signal Processing (AREA)
Mobile Radio Communication Systems (AREA)

Description

Feb. 23, 1932. G. w. WATSON SYSTEM OF COMMUNICATION Filed Feb. 8, 1950 INVENTOR /y ZZZ 5062/50 .a It

ATTORNEYS Patented Feb. 23, 1932 UNITED STATES PATENT OFFICE GLENN W. WATSON, 013 DETROIT, MICHIGAN, ASSIGNOR TO WATSONGRA PH CORPO- RATION, OF NEW YORK, N. Y., A, CORPORATION OF DELAWARE SYSTEM or COMMUNICATION Application filed February 8, 1930. Serial No. 426,860.

The present invention pertains to a novel system of communication designed for the sending of messages by electrical impulses.

The principal object of the invention is to provide a system of this character which relies on the synchronization of parts of the transmitting and receiving apparatus rather than on the duration of the impulses. The

present invention is entirely independent of the duration of impulses and is subject only to the operation of switches, by means of push members pass a given point at the same averceived in code.

useful-1n time of war or otherwlse for send--.

age rate that the pointer travels, although means are provided for maintaining the disk stationary for intervals between comparatively rapid movements. A printing mecha nism for cooperating with the impression members is controlled by a circuit responsive to the sending circuit, and the result is that the depression of a push button in line with the pointer causes a recording of the corresponding character by the printing mechanism.

If desired, the impression members may have a coded relation to the characters on the sending disk, in which case the recorded messages would be in code; or the impression members may maintain the above mentioned proper relation to the characters, in which case the message may be sent as well as re- These systems are obviously ing confidential messages.

The invention is fully disclosed by "way of example in the following description and in the accompanying drawings, in which- Figure l is an elevation of the receiving mechanism;

Fig. 2 is an elevation of the sending device;

Fig. 3 is a sectional view of the sending device;

Fig. 4 is a sectional view of the receiving device; and

Fig. 5 is an struction.

Reference to these views will now be made by use of like characters which are employed to designate corresponding parts throughout.

The sending or transmitting apparatus comprises a driving device 1, preferably an electrical synchronized chronometer, from which extends

ashaft

2. Concentric with the shaft is a panel 3 which is stationary in the illustrated construction where the shaft is vertical. A pointer 4 carried by the shaft passes over the, panel or disk 3 near the forward face thereof.

The member 3 carries a series of push buttons 5 each bearing a different character, and in all carrying all the numerals and the letters of the alphabet as shown in Figure 2. Behind the disk 3 is a fixed panel 6 carrying pairs of spaced contacts 7 and 8 corresponding to and in'line with the push but-tons 5. Each push button when depressed closes the gap between the corresponding contacts 7 and 8.

The disk 3 also carries a series of studs or contacts 9 corresponding to the push buttons 5 and joined by conductors 10 to the corresponding switch contacts 8. The contacts 7 are connected to a common conductor 11. The back of the pointer 4 carries a elevation of a modified conspring contact 12'adapted to successively engage the contacts 9 'in the rotative move ment of the'pointer.

Associated with the sending mechanism is a

radio transmitter

13 connected to a conventional antenna 14 and grounded at 15 on the output side in the usual manner. One of the input terminals of the transmitter is joined by a conductor 16 to the pointer 4, for

example through the chronometer mechanism and

shaft

2 .as shown in Figure 3, and the other input terminal is joined by a conductor which is conwhen one of the push buttons 15 is depressed.

To send an impulse which will result in the reproduction of a desired character at the receiving station, the push button representing this character is depressed manually when the pointer 4 registers with it. All the transmitted impulses are alike, regardless of the push button operated and the position thereof, but the receiving apparatus is co-ordinated with the sending apparatus to reproduce only the desired character when the sending apparatus is operated in the manner described.

The receivin apparatus also includes an actuating mem er 20, preferably an electrically operated chronometer and timed exactly in its revolution with the sending chronometer having a

rotatable shaft

21 with a pointer or arm 22 mounted thereon. Adj acent the member 20 is a fixed

bracket

23 to which is secured a stub shaft 24. On the shaft is rotatably mounted a disk 25 carrying a

contact stud

26. The

stud

26 is engage able by a

spring contact

27 carried by the arm 22. A

ratchet

28 is formed integral with or secured to the disk 25, and on the

bracket

23 is suitably supported a solenoid 29 for actuating the ratchet and disk under certain conditions. A lever 30 is mounted adjacent the solenoid to be attracted when the latter is energized, and this lever carries a

pawl

31 adapted to engage and drive the ratchet.

- The chronometers 1 and 20 operate in synchronism and to this end may consist of electrically or spring operated clocks controlled in any suitable manner. The disk 25 carries a series of characters corresponding to those on the push buttons 5, and on the periphery of the disk are mounted impression members 32, such as type,-corresponding to the characters. There is only one operative position for all the members 32 and the characters on the disk 25 are arranged some-' what differently than those on the disk 3 for this reason and also because in one case the disk is stationary and in the other case rotatable, although the relative position of the characters on each disk is the same. A circuit through the solenoid 29 is made when- .ever the

stud

26 is engaged by the

contact

27.

This circuit comprises a conductor 33 cons nected to the chronometer 20 and passes through the

shaft

21 and pointer 22 to the

contacts

27 and 26, through the disk 25 to the bracket,23, thence through a

conductor

34 and battery 35 to one of the terminals of the solenoid, and finally from the other terminal of the solenoid through a conductor 36 which returns to the member 20 or the conductor 33.

When the

contact

27 engages the

contact

26, the solenoid circuit is closed, whereupon the lever 30 is attracted and the

pawl

31 turns the

ratchet

28 and disk 25. This mechanism is so dimensioned that each stroke of the

pawl

31 advances the disk to the extent of the distance between adjacent characters. After different advances, the pointer 22 continues its uniform rotation, and when it again engages the

contact

27, another movement of the ratchet and disk 25 is effected. The average velocity of the disk is equal to that of the arm 22, but is intermittent rather than uniform. The

bracket

23 carries a spring detent 37 adapted to engage in impressions 38 in the face of'the disk and corresponding with the characters thereon. The detent holds the disk stationary between movements and prevents it from overriding on any movement.

Associated with the disk 25 is a receiving

apparatus

40 having an antenna 41 and grounded at 42 in the usual manner and tuned to receive impulses sent out from the aerial 14. This mode of communication between stations may be replaced by telegraph wires 43 extending from the conductors 16 and 17 into another circuit at the receiving end. This circuit includes conductors44 and 45 extending from the output terminals of the

receiver

40 or from the wires 43, as the case may be. One of the conductors has an electro-

magnet

46 in series therewith, and both conductors are connected to the terminals of a

solenoid

47 which has a

plunger

48 adapted to be expelled when the solenoid is energized. The solenoid is directly beneath the position occupied by the lowermost type member 32.

At opposite sides of the

solenoid

47 are a

roll

49 and a

roll

50 of

paper ribbon

51. The ribbon passes between the

plunger

48 and the lowermost type member and is adapted to be delivered by the

roller

49 and a superposed roller 52. Adjacent the electro-

magnet

46 are

rollers

53 which carry an inking ribbon 54, a portion of which is in engagement with the lower side of the

ribbon

51 directly over the

plunger

48. The shaft of the

roller

49 carries a ratchet 55 rotatable with the

roller

49. Beneath the electro-

magnet

46 is pivoted an armature 56 which has one end articulated to a pawl 57 adapted to propel the ratchet 55 and

roller

49. Y

The sending of impulses from the disk 3 has already been described, and it will be recalled that the impulse for sending a given character is transmitted when the pointer 4 is directed to the push button 5 bearing that character. At this moment the type member 32 bearing the same character is directly opposite the

plunger

48, due to the synchronized condition of the arms 4 and 22. The reception of the impulse 'by the

receiver

40 energizes the circuit comprised in the conits ' tor,

ductors 44 and 45. The armature 56 is attracted by the

magnet

46, but the pawl 57 rides idly over the ratchet and has no effeet on the

roller

49 or

ribbon

51. At the same time, the

plunger

48 is ejected towards the opposite type member, whereupon the impression of that member is made on the

ribbon

51. The striking end of the

plunger

48 is of greater area than the character inscribed on any of the members 32, so that there is an overlapping of the plunger end with respect to the character. The result of this arrangement is the production of an impression on the

ribbon

51 even though there be a slight imperfection in the synchronization. The energization of the circuit is only momentary, and when it is broken, a spring 58 pulls on the pawl 57, thereby turning the

roller

49 and bringing a fresh area of ribbon in position over the

plunger

48.

Figures 1 and 2 show the character A in position to be transmitted from the sending station and to be printed at the receiving station. Obviously, both stations should be brought into register with each other before sending, and this setting may be made by manual manipulation of the members 4 and 22 or of the chronometers 1 and 20.

It will be apparent that the reproduction of a signal on the

ribbon

51 is independent of the duration of closing the sending circuit between any pair of contacts 7 and 8, or in fact all such intervals may be of equal duration insofar as can be estimated by the operaso that the characteristics and difliculties of the conventional dot and dash systems are entirely absent in this device. The operation of the present device depends only on the fact that the characters on the disks 3 and 25 occup like positions with relation to the

arm4and p unger

48 respectively at all times, due to the synchronization of the actuating devices. The latter are timed in such a manner that the arm 4 will make-a complete revolution in a few seconds, so that the operator will not be required to wait an unreasonable period between impulses. Only a few characters may be depressed at a time with the fingers and in their order on the disk, as depression must take place before contact is made with arm 4. More than one character may be. depressed at a time and each must be released as soon as the arm 4 passes, having formed its contact and sent out an impulse.

In order to reduce the time interval between impulses without involving too great an angular velocity of the rotary arm, I have provided a difierent form of disk shown in Figure 5, in which the disk carries several groups of characters, each group containing the entire set. To avoid complication, only a few characters of each group are illustrated. In lieu of the common conductor 11 in Figure 3, there is provided a series of

conductors

60 equal in number to the characters in a group.

The disk carries studs 61, similar to the contact studs 9, for all the characters in each group All studs corresponding to like characters throughout the several groups are connected exclusively to a given

conductor

60,-so

- that each conductor represents a given character regardless of the group in which it is contained.

A bank of push button. switches 62 is used for the sending of impulses, and these switches may be of the character already described in connection with Figure 3.

Conductors

63 connect one terminal of each switch separately to the corresponding

conductors

60, and the remaining switch terminals are joined into a common conductor 64 corresponding to the conductor 17 inFigureQ. An arm 65 is caused toturn over the disk and has a conductor 66 extending therefrom and corresponding to the conductor 16 in Figure 2. By the use of this apparatus, as many impulses per rotation of the arm 65 may be sent as there are groups on the disk, so that greater speed is possible without turning the arm at an excesslve rate.

The invention is especially useful for sending messages through space without the use of any particular code, either within a build-' ing such as a bank, or over long distances as in sending weather reports or messages to airplanes, balloons, submarines, war' vessels, police cruising cars, sheriff ofices, camps in war time, and in transoceanic communication. The receiving of the message does not require an operator inasmuch as the message is automatically recorded.

For sending secret messages as in time of war or for commercial and diplomatic purposes, an arbitrary arrangement of the impression members may be made, but the relation of these members to those on the sending disk should be known to the person reading the message. In such case themessage may be sent as usual but'will appear meaningless if received by listeners-in. Approximately 125,000 diflerentcombinations may be made from the group of characters on the sending and receiving disks, it being only necessary for secrecy that sender and receiver have similar disks. Further secrecy may also be attained by special adjustment of the speed of sending and receiving chronometers. This eliminates the need of code unless desired. Another method is to maintain the relation between the impression members and the sending characters and to send the message in code, as a result of. which it will be received in the same condition. 7

Although specific embodiments of the invention have been illustrated and described, it will be understood that various alterations in the details of construction may be made without departing from the scope of the in vention, as indicated by the appended claims.

What I claim is A 1. A system of communication comprising a sending disk, a series of operating members carried thereby, a series of contacts and characters associated with said members, a common contact adapted for selective engagement with the first named contacts and mov- 'able relatively to said disk, a radio transmission circuit having one side connected to said, first named contacts and the other side to said common contact, said operating members being adapted to close said circuit on engagement of said common contact with each of the first named contacts and operation of the corresponding operating member, and receiving means for registering impressions of characters corresponding to said operating members on actuation of the latter, and synchronous propelling means for actuating the movable parts of said sending and receiving devices and having an energy source independent of said circuit.

2. A system of communication comprising a sending disk, a series of operating members carried thereby, a series of contacts and characters associated with said members, a common contact adapted for selective engagement with the first named contacts and movable relatively to said disk, a radio transmission circuit having one side connected to said first named contacts and the other side to said common contact, said operating members being adapted to close said circuit on engagement of said common contact with each of the first named contacts and operation of the corresponding operating member, a receiving disk having characters thereon corresponding to the characters on said sending disk, and means for bringing'said characters into reading position on actuation of the corresponding operating members, and synchronous propelling means for actuating the movable parts of said sending and receiving devices and having an energy source independent of said circuit.

3. A system of communication comprising a sending disk, a series of operating members carried thereby, a series of contacts and characters associated with said members, a common contact adapted for selective engagement with the first named contacts and movable relatively to said disk, a radio transmission circuit having one side connected to said first named contacts and the other side to said common contact, said operating members being adapted to close said circuit on engagement of said common contact with each of the first named. contacts and operation of the corresponding operating member, a receiving disk, impression members carried by said receiving dlsk and corresponding to the characters on said sending disk, a receiving circuit adapted to respond to said sending circuit, impression means o erable by :said receiving circuit and adapte t cooperate with said impression members, and means for bringing sa1d impression members. into operative position in synchronism with the engagement of said common contact with the first named contacts, said means having an energy source independent of said circuit.

4. A system of communication comprising a sending disk, a series of operating members carried thereby, a series of contacts and characters associated with said members, a common contact adapted for selective engagement with the first named contacts and movable relatively to said disk, aradio transmission circuit having one side connected to said first named contacts and the other side to said common contact, said operating members being adapted to close said circuit on engagement of said common contact with each of the first named contacts and operation of the corresponding operating member, a receiving disk, impression members carried by said receiving disk and corresponding to the characters on said sending disk, a receiving circuit adapted to respond to said sending circuit, impression means operable by said re- I ceiving circuit and adapted to cooperate with sa1d impression members, and synchronized means for bringlng sa1d impression members into operative position with relation to said impression means and for establishing relative movement between said common contact and series of contacts, said means having an energy source independent of said circuit.

5. A system of communication comprising a sending disk, a series of operating members carried thereby, a series of contacts and characters associated with said members, a common contact adapted for selective engagement with the first named contacts and movable relatively to said disk, a radio transmission circuit having one side connected to said first named contacts and the other side to said common cont-act, said operating members being adapted to close said circuit on engagement of said common contact with each of the first named contacts and operation of the corresponding operating member, a receiving disk, impression members carried by said receiving disk and corresponding to the characters on said sending disk, a receiving circuit adapted to respond to said sending circuit, impression means operable by said receiving circuit and adapted to cooperate with said impression members, a single contact carried by said receiving disk, a movable contact adapted to engage said single contact, a relay mechanism operable by engagement between said last named contacts to advance said receiving disk the distance between the successive impression members and to advance the single contact from the movable contact, and means for moving said movable contact in synchronism with the engagement of said common contact with said series of contacts, said means having an energy and source independentof said circuit.

6. A system of communication comprising a sending disk, a series of operating members carried thereby, a series of contacts and characters associated with said members, a common contact movable over and engageable with said series of contacts, a radio transmission circuit having one side connected to said first named contacts and the other side to said common contact, said operating members being adapted to close said circuit on engagement of said common contact with each of the first named contacts and operation of the corresponding operating member, a receiving disk, impression members carried by said receiving disk and corresponding to the characters on said sending disk, a receiving circuit adapted to respond to said sending circuit, impression means operable by said receiving circuit and adapted to cooperate with said impression members, and means for bringing said impression members into operative position in synchronism with the engagement of said common contact with the first named contacts, said last named means having an energy source independent of said circuit.

7. A system of communication comprising a sending disk, a series of operating members carried thereby, a series of contacts and characters associated with said members, a common contact movable over and engageable with said series of contacts, a radio transmission circuit having one side connected to said first named contacts and the other side to said common contact, said operating members being adapted to close said circuit on engagement of said common contact with each of the first named contacts and operation of the corresponding operating member, a receiving disk, impression members carried by said receiving disk and corresponding to the characters on said sending disk, a receiving circuit adapted to respond to said sending circuit, impression means operable by said receiving circuit and adapted to cooperate with said impression members, and synchronized means for bringing said impression members into operative position with relation to said impression means and for moving said common contact over said series of contacts, said synchronized means having an energy source independent of said circuit.

8. A system of communication comprising a sending disk, a series of operating members carried thereby, a series of contacts and characters associated with said members, a common contact movable over and engageable with said series of contacts, a radio transmission circuit having one side connectedto said first named contacts and the other side to said common contact, said operating members being ada ted to close said circuit on engagement 0 said common contact with each of the first named contacts and operation of the corresponding operating member, a receiving disk, impression members carried by said receiving disk and corresponding to the characters on saidsending disk, a receiving circuit adapted to respond to said sending circuit, impression means operable by said receiving circuit and adapted to cooperate with said impression members, a single contact carried by said receiving disk, a movable contact adapted .to engage said single contact, a relay mechanism operable by engagement between said last named contacts to advance said receiving disk the distance between the successive impression members and to advance the single contact from the movable contact, and means for moving said movable contact and common contact in synchronismwith the engagement of said common contact with said series of contacts, saidlast named means having an energy source independent of said circuit.

In testimony whereof I aflix my signature.

GLENN W. WATSON.

US426860A 1930-02-08 1930-02-08 System of communication Expired - Lifetime US1847030A (en)

Priority Applications (1)

Application Number	Priority Date	Filing Date	Title
US426860A US1847030A (en)	1930-02-08	1930-02-08	System of communication

Applications Claiming Priority (1)

Application Number	Priority Date	Filing Date	Title
US426860A US1847030A (en)	1930-02-08	1930-02-08	System of communication

Publications (1)

Publication Number	Publication Date
US1847030A true US1847030A (en)	1932-02-23

Family

ID=23692506

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
US426860A Expired - Lifetime US1847030A (en)	1930-02-08	1930-02-08	System of communication

Country Status (1)

Country	Link
US (1)	US1847030A (en)

Cited By (1)

* Cited by examiner, † Cited by third party

Publication number	Priority date	Publication date	Assignee	Title
US2741662A (en) *	1953-07-07	1956-04-10	William H Skilling	Telegraphic apparatus

1930
- 1930-02-08 US US426860A patent/US1847030A/en not_active Expired - Lifetime

Cited By (1)

* Cited by examiner, † Cited by third party

Publication number	Priority date	Publication date	Assignee	Title
US2741662A (en) *	1953-07-07	1956-04-10	William H Skilling	Telegraphic apparatus

Publication	Publication Date	Title
US2171293A (en)	1939-08-29	Radio navigational guide system
US1847030A (en)	1932-02-23	System of communication
US2074037A (en)	1937-03-16	Automatic self-synchronized transmitting system
US2495705A (en)	1950-01-31	Multiple frequency telegraph system
US2019864A (en)	1935-11-05	Communication system
US1356488A (en)	1920-10-19	Radiotelegraph system
US2845616A (en)	1958-07-29	Communication coding and decoding apparatus
GB854083A (en)	1960-11-16	Communication equipment
US2104544A (en)	1938-01-04	Image transmission system
US2578025A (en)	1951-12-11	Printing telegraph system
US2116649A (en)	1938-05-10	Communication system
US2653997A (en)	1953-09-29	Teletypewriter
GB632774A (en)	1949-12-05	Improvements in type printing telegraph systems
US2375588A (en)	1945-05-08	Autointerpregraph signal recorder
US2008389A (en)	1935-07-16	Telegraph printer system
US3108255A (en)	1963-10-22	Coded information transmit-receive communications system
US1932579A (en)	1933-10-31	Telegraph printer system
GB559493A (en)	1944-02-22	Improvements in recording-apparatus for ships' telegraphs
USRE20052E (en)	1936-07-28	Communication system
US2139452A (en)	1938-12-06	Printing telegraph receiver
US2401877A (en)	1946-06-11	Enciphering and deciphering system
US322689A (en)	1885-07-21	Ments
US1941585A (en)	1934-01-02	Radio beacon system
US3144509A (en)	1964-08-11	Automatic time transmitter
US946230A (en)	1910-01-11	Keyboard-operating mechanism.

US1847030A - System of communication - Google Patents