US505308A - Telephone system - Google Patents

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US505308A
US505308A US505308DA US505308A US 505308 A US505308 A US 505308A US 505308D A US505308D A US 505308DA US 505308 A US505308 A US 505308A
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circuit
arm
station
contact
calling
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/68Circuit arrangements for preventing eavesdropping
    • H04M1/70Lock-out or secrecy arrangements in party-line systems

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  • IVILLIAM WV. DAVIS OF CALIFORNIA, MISSOURI, ASSIGNOR TO HIMSEIIF, WALTER LAN DER, AND FRANK B. LANDER, OF SAME PLACE.
  • Figure l is a front elevation of my improved apparatus, showing the interference plug in position for calling before the ⁇ releasing button is pulled.
  • Fig. 2 is a view, similar to Fig. 1, of the apparatus at a station after it has been called.
  • Fig. 3 is aperspective detail view of the mechanism for making and breaking the circuit which controls the index dial,
  • Fig. 4 is a perspective view of the hand phone hook and its associated contact points.
  • Fig. 5 is an end elc-V vational view of the hook contact bar and associated contact springs.
  • Fig. 6 is a detail perspective of' the magnet and its armature, for operating the index mechanism.
  • FIG. 7 is a perspective view of the circuit-establishing devices on the shaft of the index hand.
  • Fig. 8 is a diagrammatical view of the mechanism and circuit for the non-interference device, andmeans for controlling the circuit therefor.
  • Fig. 9 is a plan-view of the indexhand operating mechanism.
  • Fig. l0 is a plan- View of the circuit-breaking mechanism for operating the index-hands, and the means for controlling the same, with the dial or front plate removed, to more convenientlyshow the clock mechanism by which it is operated,also showing the device whereby a'supplemental circuit is established when the circuit is broken at the index-hand shaft, as hereinafter explained.
  • FIG. 1l is a diagrammatic' View of the circuits at three stations, illustrative of the means for calling any station from any other, also illustrating the means for preventing any second station from effecting a call until the line is restored to its normal condition by the original calling station, and the arrangement of the circuits and manipulating devices at the callingf fcalled, and another station.
  • Fig. l2 is a diagrammatic View of the arrangement of the circuits, similar to Fig. 1l, but showing, in addition thereto, the local circuits for ringing the signaling devices at the called and calling stations, and the means by which 'such circuits are established in each instance; and Fig.
  • FIG. 13 is a diagrammatic view ot' the circuits at the three stations for talking purposes between the calling and called stations, to the exclusion of the other stations on the line, showing the essential features of the circircuits, of what is" shown in Figs. ll and 12, but in addition thereto the local arrangements of the hand phone and transmitter local circuits and the means for connecting the same to the Inain line and grounding the mainline at the calling and called stations.
  • My invention relates to new and useful improvements in telephone systems, local circuits therefor, and apparatus to effect the necessary changes in the same, and consists, ⁇ generally stated, in a system ot' telephony in which a single line wire is adapted to be used to connect a numberot' differentinstruments, and, in thc apparatus, in the details of improvement by which the necessary changes in the local circuits, tbc., are eected to place any two desired instruments in connection with each oth erand ring the call-bells thereat, and that to the exclusion of the other instruments in the system.
  • This apparatus consists in mechanism peculiarly adapted to place all instruments in the system in such condition that the transmitting, receiving, ⁇ and signaling devices are normally out of circuit, and adapting an operator at anyinstrumentin the system to call up and be connected with any other instrument in the system, and, in so doing, cut out and prevent from being used, all instruments other than the two between which communication was originally established, until afterthe operator at the lirst, or calling, instrumenthas reestablished the normal condition as at first. In this manner,I am enabled to dispense With a central station or exchange.
  • Another featureo ⁇ invention resides in the IOO adaptation of the use of the main-line to cut in the local bell circuits to ring the signaling bells at the calling and the called stations.
  • Still other features of invention reside in providing means, consequent on the abovementioned features, for preventing any but the parties at the two stations originally connected being able to participate in the conversation, that is, in providing means/whereby, when any two stations are connected and in communication with each other, an operator at any other station is prevented from hearing what is passing between the tirst parties, t'. e., establishing a strictly private line between the rst two parties connected.
  • Figs. l and 2 1 indicates a back board on which is supported the different parts of my operating mechanism, and which, in connection with the transmitter, which is preferably independently supported, and the local battery, or batteries, I shall term an instrument, and comprises all the necessary parts for a set at one station.
  • a train of spring-actuated mechanism which is adapted to rotate a shaft2 (sce Figs. 3 and l0) to the outer end of which is connected a disk 3 provided with pins or studs 4, the function of which, when the disk is made to rotate, is to engage with and vibrate 'the nger 5.
  • the finger 5 (see Fig. 10) is mounted on the rock-shaft 6 surrounding which is a torsion spring 8.
  • One of the offices of the spring 8 is to always hold the finger 5 in a position ot interference in the path of the pins or studs 4 when they are revolved by rotation of the disk 3.
  • an arm Projecting laterally from the rock-shaft 6 is an arm carrying on its end an insulation-block 9 in which is carried a contact point 10, which contact point is adapted to make electrical contact with an adjustable contact point 11, mounted in a suitable support. Electrical connection is made with these two points, respectively, from the other parts of the instrument as will be explained later on. Electrical contact between the two points 10 and 11 is normally maintained by the spring 8, except at such times that the arm 5 is oscillated by the movement of the pins 4, when the points are temporarily separated and the circuit therethrough broken.
  • the main line as hereinafter explained, is permanently connected through these points and also throughthe coils of the magnets 12 (see Figs.
  • an index-hand 17 On the escape-wheel shaft, is an index-hand 17 (see Fig. 9) which travels in front of a dialplate 18 (see Figs. 1 and 2), the face of which is provided with a series of index numbers corresponding in number to the number of teeth in the escape-wheel 16.
  • the pins or studs 4 on the disk 3 correspond in number with the numberof teeth on the escape-wheel 16; hence, in the rotation of the disk 3, the pins 4 successively engaging with the free end of the arm 5, the contact points 10 and 1l are separated a number of times corresponding to the number of indices on the dialplate IS-that is, the circuit through the magnets 12 is broken that number of times,which inturn, through vits armature 13 and extension 13n and its retractive spring 13b, actuates the escapement fork the same number of times, causing the index-hand 17 to make one complete revolution. In this manner, it is evident, that if we stop the rotation of the disk at any particular point we may in this manner predetermine the resultant position of the index-hand 17.
  • a radiallydisposed arm 19 (see Figs. 3 and 10), which is rigidly secured thereto and therefore rotates with the disk 3.
  • a dial-plate 2O shown in Figs. 1 and 2, but removed in Figs. 3 and l0
  • a spring stop-pin 21 which extends far enough from the rearside of the plate 20 to normally IOO IIO
  • the upper plate of the movement is shown as provided with a series of perforations corresponding to the perforations 20a in the plate 20.
  • the number of holes 20a correspond with the number of pins or studs 4 and the insertion of theinterference pin 25 in hole l (see Figs. l and 2) will stop the rotation of the disk 3 after one pin 4 has engaged with the arm 5 1'. e., after the main-line circuit has been broken oncethe magnet armature 13 allowed to make one oscillation, and the index-hand 17 moved one step forward. In this manner,if the interference pin 25 is inserted in the 10 hole, as shown in Figs.
  • the index-hand will move to number 10 on the dial, that is, the disk 3, after the stop-pin 21 has been withdrawn to release the arm 19 from its position of rest will be stopped in its rotation, by the arm 19 striking against the pin 25, after ten of the pins 4 have engaged with the arm 5 and broken the main-line circuit a corresponding number of times. It will be understood, from what was said before, that inasmuch as the magnets 12 at all the stations are in line, they will be all similarly affected, and that all the index-hands will be pointing to the ten number on the dials. For the sake of illustration, we will, in the future description, assume that the number of the called station is 107 and that of the calling station is 1.
  • a contact spring 22 Placed so that its end lies in the path of the end of the arm 19, is a contact spring 22 which is supported on the insulation-block 23 and is adapted to normally make contact with the contact-block 24.
  • the end of the spring 22 is so placed relative to the path of revolution of the arm 19 that the end of the arm bears against the spring 22, breaking its contact with the block 24, when the arm is in its norm alposition of rest against the stop-pin 21, but so arranged that, when the arm 19 is released, the spring 22 gives, allowing the arm to pass, making contact with the block 24 byv the time oneof the pins 4 have engaged with and passed the end of the arm 5. The reason for this will be evident later. Secured rigidly to the shaft of the escape-wheel--the index-hand shaft-are two.
  • disks 27 and 31 of rubber or similar insulating material.
  • the free end of a pivoted arm 28 rides'and is held constantly in contact with one of these disks, as 27, Fig. 7, either by gravity or by spring tension.
  • the arm 28 is delicately pivoted in a standard or post 29 with which it is in electrical contact.
  • a contact pin 26 which, while it is always in electrical connection with the index-hand shaft, is so disposed as to make contact with the end of the arm 28 at one particular point in the revolution of the index-hand shaft, and this is predetermined for each instrument, and is such, relative to the index-hand 17, that the point 26 is in contact with the arm 28 when the indeX- hand 17 is pointing tothe number of the station-i.
  • the other disk 31 is provided with a diametrically disposed contactpin, which does not make contact withthe shaft on which the disk is supported, but is adapted' to make contact, simultaneously, with two tangential springs 33 which make contact generally, in the rotation of the disk 31 with its supporting shaft, with opposite sides of the circumferential surface ofthe disk.
  • the springs 33 are independently supported on some in ⁇ sulating part of the framing of the instrument and are adjustable toward and from each other, at their free ends, by means of the right and left hand insulation screw stem 35. diametrical contact-pin 32, or rather the disk 31 by which it is supported, is so disposed with relation to the rotation of the shaft -on which it is mounted that it makes contact with and establishes electricalcircuit between the springs 33 when the index-hand points to zero on the dial 18. At all other positions of the ndex-hand the circuit which is completed through the springs 33 is broken by the springs, riding on the surface of the insulation-disk 31. The object of this device and arrangement is evident from an inspection of Fig. 8, taken in connection with Fig. 10.
  • the springs 33 are the terminals of a circuit extending through a local battery and the coils of a pair of magnets 30 which control the movements of an armature 30".
  • end of the armature 30et is provided with a projection 19?L which,when the circuit through the magnet 30 is broken, as described, and the armature 30L is retracted by the spring ⁇ 34, is adapted to come into a position of interference in the path of the arm 19, and this immediately in front of the arm when itis in its normal position of rest ⁇ against the stoppin 21. See also Fig. 3.
  • the device and method of operation thereof, just described, constitutes my non-'interference locking mechanism.
  • the non-interference device illustrated in Figs. 7 and 8 is identical in all instruments, as is also the circuit-establishing device, also illustrated in Fig. 7, except that the contact 26 is changed for each instrumentx to correspond with the number of that station, as stated. That is, for example, when any station, as Nd 1, calls any other station, as No. 10, as illustrated in Figs. 2 and 10, the contact 26 at the called station will be in contact with the arm 28, and circuit established therethrough at that station, but at all other stations the circuit is broken thereat by the arm 28 resting against the insulation-disk 27 only.
  • the contact between the spring 22 and the point 24 is broken by the arm 19 at all stations except the calling station, where the arm 19 has left its normal position and has been stopped by the interference-pin 25, and, in the second instance, the only other station where the necessary circuit connections are made is at the called station, where it is completed through the contact 26as it rests against the arm 28.
  • l make use of the hinged phone-hook 36 which is provided with a lateral projection which is adapted in its raised and depressed positions to make contact with two sets of springs. See Figs. 4 and 5.
  • the hook itself is provided with a raising spring 38a (see Figs. 1 and 2.), which is strong enough to raise the hook when the phone is removed from the same but permits the hook to be depressed when the phone is suspended thereon(compare Figs. 1 and 2).
  • the hook 36 itself is one terminal of a circuit and makes direct contact with the springs 37 and 48 in, respectively, its depressed and raised positions.
  • the springs 39 and 38 are interposed in the local bell circuit and are electrically connected together, when the hook 36 is in its depressed positionthat is, as long as the phone 1 is on the hook 7 by both making contact with a contact strap piece 39'LL supported by, but insulated from, the lateral projection of the hook 36.
  • the springs 41 and 42 are electrically connected together, when the hook 36 is in its raised position-when the phone is off the hook-by both making contact with the contact-strap 41L supported on, and insulated from, the lateral projection of the hook.
  • the line being connected with the main-line binding posts 1p and 2p at each instrument.
  • the internal circuit, at each station, of the main line is as followsz-From the binding post 1p, by wire t, to one terminal of the index operating magnet 12 (see Figs. 6 and 9), from the other terminal thereof, by wire s, to one of the contact points 10 and 11 of the circuit breaking device (see Figs. 3 and 10), from the othercontact point, by wire tl-r, to the other binding post 2P.
  • Station Nd 1 desires to call No 10.
  • the operator at the former station pulls his stop pin 21 (see Figs. l and 2), thereby releasing the arm 19 of his instrument, he having previously inserted his interference pin 25 (see Fig. 10) in the hole 20a, corresponding in number to the station he desires to call--No. 10 in this instance.
  • the arm 19 is allowed to revolve until it strikes against the interference pin.
  • the disk 3 revolves with the arm 19, and the pins 4 engage with and oscillate the arm 5 a number of times corresponding to the number of the station desired to be called (10), and this, in turn, at the contact points 1O and 1l (see Figs.
  • the arm 19 of the circuit breaking mechanism at the calling station is the only one, in the first instance, in the series of instruments on the line, that has moved from its normal position of rest, at zero, against the stop 21, and, as will appear from the following description,is the only one that can move after any one station has started to call another, until the first station has returned the normal condition of the line, by allowing the arm 19 of his instrument to return to zero by the removal of his interference pin 25.
  • the arm 19 of the circuit breaking mechanism at the calling station is the only one, in the first instance, in the series of instruments on the line, that has moved from its normal position of rest, at zero, against the stop 21, and, as will appear from the following description,is the only one that can move after any one station has started to call another, until the first station has returned the normal condition of the line, by allowing the arm 19 of his instrument to return to zero by the removal of his interference pin 25.
  • the terminals of the exciting coils of the non-interference device, illustrated in Fig. 8 are connected, respectively, by the Wires g and k to one of the contact springs 33 and one terminal of the local battery fr, the local circuit being completed, by the wire t', from the other spring 33 to the remaining terminal of the battery m.
  • the springs 33 are in electrical connection with each other, through the diametrically disposed circuit-completing pin 32, carried by the insulation disk 31 secured to and rotating with the shaft of the escape wheel 16 (compare with Figs.
  • call No. 1 (the one to the left in the drawings)
  • No. 10 (the one to the right in the drawings)
  • the circuit through all the magnets 12 will have been broken a number of times and the index hands of all the instruments connected with the line will have been moved, and the cross-connecting bar'32 at all stations, including stations not called as Nd 5 (the intermediate one in the drawings), be moved to break the circuit at the springs 33, through the magnets 30, as shown by the dotted lines positions shown in Fig. 11.
  • Fig. 12 in which the local circuits for the signaling device (the vibrating bells shown in Figs. 1 and 2, the operating magnets 43 of which are shown in the ligure under discussion) are added to what is illustrated in Fig. 11.
  • the circuit of the local battery for the non-interference magnets 30 is open, as described, at all times, except when the index hands are at zero -t'. e., at all times
  • I preferably make use of the same battery, az, for operating the magnets 43 of the signaling devices at the calling and called stations.
  • a disk 27 of insulating material which carries the radially disposed contact pin or arm 26, in electrical connection with the shaft and framing of the index mechanism, and adapted to make electrical contact with the lever arm 28 at one of the positions of vrevolution of the index hand 17, as described.
  • the position of this contact pin 26 is differently set circumferentially for each different machine, t'. e., set s0 as to make contact with the lever arm 28 when the index hand 17 is pointingto the number on the dial 18 corresponding to the number of the station 10 at station No 10, as shown at the called station in Fig. 12.
  • the local circuit for operating the signaling devices, at all the stations, is as folloWs:- From one terminal ot' the operating magnets 43, by wire c and the branch circuits cZ-e and d, to, respectively, the framing of the index mechanism, 't'.
  • the shaft of the index mechanism has been rotated, in the manner described, and carried with it the radial contact pin 26, until it is in a position to make contact with the arm 28 and close this local circuit thereat.
  • the circuit is open at this point.
  • the signal bell at the called station Iand at the calling station is being rung through the operation ot' the magnets 43.
  • the circuit is completed through the hook 36 and the spring 37, so that when, at the calling or called stations, the hand-phone is removed from the hook 36 and the hook allowed to raise, t'. e., come to the dotted line position shown in Fig. 12 at stations No.1 and No.
  • the circuit will be opened thereat and the bells stopped ringing.
  • the local IIO completed communication removes his interference pin 25 and allows the arm 19 of his instrument to return to zero, the circuit just described will be open, at all stations, both at thecontact points 22-24 and at the contactpin 26.
  • Fig. 13 in which the talking circuit is outlined, in addition to what is shown in Fig. 11, I will describe the arrangements of the local circuitsand the means by which a talking set can be connected at the calling and called stations, to the main line.
  • Main line circuit is effected by grounding the main line at the calling and called stations, after having arranged thelocal circuits as will appear from the following description.
  • the other terminal of the primary of the transmitter coil is connected, by wire m and the wire e', to the other terminal of the battery 00, thereby completing the circuit, when the phone-hook is raised, for the primary of the transmitterj;
  • one terminal of the secondary of the transmitter j is connected to ground by the wire o; the other terminal being connected, through the coil of the handphone Z, by the wiresp and r, to the branched circuit which is connected by wires l) and c to, respectively, the contact arm 28 and the contact point 22.
  • the internal main line circuit wire s is connected, by Wire q, to one of two springs, as 4l, which are adapted to make contact with, and be electrically connected by, the insulated plate ila supported on the phone-hook 36, and the branched circuit, connected, respectively, to the framework of the index-mechanism, t'. e., the contact pin 26, and the contact point 24, by the wires d and d-e, is connected, by the wire u to the other spring 42, referred to.
  • the talking circuit is as follows-#The main line is, as already stated, grounded at the calling and at the called stations, this being the means of effecting the circuit therebetween. ⁇ Beginning then at the ground, at station No. l, the circuit is as followsz- From the ground, by wire o, to the transmitter; thence, by wire p, to the hand-phone l; thence, by wires yr, b, and c to the contact point 22it cannot go over the arm 28 as the circuit is open there; from the contact point 24, which at this-the calling-sta tion is in contact with the point 22, by wires d and u to the contact spring 42, across the plate ila to the spring 4l; thence, by wire g, to the internal main line wire s, through the circuit breaking device 10-1I, ⁇ vhich is closed over the wire -r to the binding post 2p; and over the main line 7L toward the called station, No.
  • the internal circuit is identical with that i described for No. l, the calling station, eX- cept that the branched circuit including the contact pin 26 and arm 28 and the contact points 22 and 24 is closed at the contact pin 26 it being in contact with the arm 28 when this station is called.
  • the resistance of the branch to the permanent main line ground can be so adj usted that this ground does not materially affect the use of the main line for communication purposes over the temporary grounds established as described.
  • a telephone system the combination with a main line, and a battery therefor, of a series of magnets permanently connected in said line, an armature for each of said magnets, a circuit breaker in the main line for each of said main line magnets, power driven mechanism for actuating said circuit breaker, a step-by-step escapement mechanism which is operated by the armature of the main line magnet, and means, actuated by the escapement mechanism, for controlling a local circuit in which is inserted a magnet, the armature of which is adapted to control the said power driven mechanism and its operated circuit breaker, substantially as an d for the purposes specified.
  • a telephone system the combination with a main line, a series of magnets, a battery, and a series of circuit breakers inserted in the main line, of means for operating the circuit breakers, consistin gin a revoluble disk provided with projecting pins adapted to engage with and operate the circuit breakers, a removable stop for retaining the revoluble disk at its normal position, an adjustable stop for stopping the disk at any position other than its normal, and means for locking all other revoluble disks against rotation when any one disk has been started, substantially as and for the purposes specified.
  • a telephone system the combination with a main line, a magnet, a battery, and a circuit breaker inserted in the main line, of means for operating the circuit breaker, con.- sisting in a revoluble disk provided with projecting pins adapted to engage with and operate the circuit breaker, a radially projecting arm secured to the supporting shaft of the said disk, a stationary disk provided with a series of holes corresponding in number to the pins on the revoluble disk, and a pin, or pins, adapted to be inserted in the holes and engage with the said radial arm, substantially as and for the purposes specified.

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Description

(No Model.) 7 Sheets-Sheet l.
W. W. DAVIS. TELEPHONE' SYSTEM.
` No. 505,308.r
.Patented Sept'. l19
(No Model.) 7 Sheets-Sheet 3.
W.. W. DAVIS.
TELLPHONBSYSTEM.
No. 505,308 Patented 861115.19,` 1893.
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(No Model.) 7 Sheets-Sheet 4. W. `W. DAVIS. TLPHONE SYSTEM.
Patented Sept. 19, 1893.
7 Sheets-Sheet.
' (No Model.)
W. W. DAVIS. TELEPHONE SYSTEM.
Patented Sept. 19, 1893.
glwfwwtlllt (No Model.) i '7 sheets-sheets.
` W. WQDA'VI'S.` .TELBPHONBSYSTEM- No. 505,308. v lategted Sept'.1 9,1-893'.1
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T ,If
U Cyr (No Model.) 7 Sheets-'Sheet 7. W. W. DAVIS. TELEPHONE SYSTEM.
No. 505,308. l Patentedsept.'19.1893.4
UNITED STATES PATENT OFFICE..
IVILLIAM WV. DAVIS, OF CALIFORNIA, MISSOURI, ASSIGNOR TO HIMSEIIF, WALTER LAN DER, AND FRANK B. LANDER, OF SAME PLACE.
TELEPHONE SYSTEM.
SPECIFICATION forming part of Letters Patent No. 505,308, dated September 19, 1893. Appncauon nea December so, 1392. serai No. 456,772. rnbmodei.)
To aZZ whom it may concern,.-
Be it known that I, WILLIAM W. DAvIs, a citizen ofthe United States, residing at California, in the county of Moniteau, State of Missouri, have invented certain new and use` ful Improvements in Telephone Systems and Apparatus Therefor, of which the following is a full, clear, and exact description, such as will enable others skilled in the art to which it appertains to make and use the same.
In the accompanying drawings, forming a part of this specification, wherein like symbols of reference refer to like parts in the different views, Figure l is a front elevation of my improved apparatus, showing the interference plug in position for calling before the` releasing button is pulled. Fig. 2 is a view, similar to Fig. 1, of the apparatus at a station after it has been called. Fig. 3 is aperspective detail view of the mechanism for making and breaking the circuit which controls the index dial, Fig. 4 is a perspective view of the hand phone hook and its associated contact points. Fig. 5 is an end elc-V vational view of the hook contact bar and associated contact springs. Fig. 6 is a detail perspective of' the magnet and its armature, for operating the index mechanism. Fig. 7 is a perspective view of the circuit-establishing devices on the shaft of the index hand. Fig. 8 is a diagrammatical view of the mechanism and circuit for the non-interference device, andmeans for controlling the circuit therefor. Fig. 9 is a plan-view of the indexhand operating mechanism. Fig. l0 is a plan- View of the circuit-breaking mechanism for operating the index-hands, and the means for controlling the same, with the dial or front plate removed, to more convenientlyshow the clock mechanism by which it is operated,also showing the device whereby a'supplemental circuit is established when the circuit is broken at the index-hand shaft, as hereinafter explained. Fig. 1l is a diagrammatic' View of the circuits at three stations, illustrative of the means for calling any station from any other, also illustrating the means for preventing any second station from effecting a call until the line is restored to its normal condition by the original calling station, and the arrangement of the circuits and manipulating devices at the callingf fcalled, and another station. Fig. l2 is a diagrammatic View of the arrangement of the circuits, similar to Fig. 1l, but showing, in addition thereto, the local circuits for ringing the signaling devices at the called and calling stations, and the means by which 'such circuits are established in each instance; and Fig. 13 is a diagrammatic view ot' the circuits at the three stations for talking purposes between the calling and called stations, to the exclusion of the other stations on the line, showing the essential features of the circircuits, of what is" shown in Figs. ll and 12, but in addition thereto the local arrangements of the hand phone and transmitter local circuits and the means for connecting the same to the Inain line and grounding the mainline at the calling and called stations.
My invention relates to new and useful improvements in telephone systems, local circuits therefor, and apparatus to effect the necessary changes in the same, and consists, `generally stated, in a system ot' telephony in which a single line wire is adapted to be used to connect a numberot' differentinstruments, and, in thc apparatus, in the details of improvement by which the necessary changes in the local circuits, tbc., are eected to place any two desired instruments in connection with each oth erand ring the call-bells thereat, and that to the exclusion of the other instruments in the system. This apparatus consists in mechanism peculiarly adapted to place all instruments in the system in such condition that the transmitting, receiving, `and signaling devices are normally out of circuit, and adapting an operator at anyinstrumentin the system to call up and be connected with any other instrument in the system, and, in so doing, cut out and prevent from being used, all instruments other than the two between which communication was originally established, until afterthe operator at the lirst, or calling, instrumenthas reestablished the normal condition as at first. In this manner,I am enabled to dispense With a central station or exchange.
Another featureo` invention resides in the IOO adaptation of the use of the main-line to cut in the local bell circuits to ring the signaling bells at the calling and the called stations.
Other features of invention reside in providing means whereby the local circuits of transmitters, receivers, and signaling bells are normally cut out of circuit and the mainline always cut through coils of the indication magnets, whereby, when an operator at one instrument, which, for the sake of convenience, I will call a station, has called another station, the indicators at all stations are similarly affected, showing to an attempting user that the main-line is in use, and, in addition to this, in providing means, when one station has called and is in communication with another, for at once locking, at all other instruments, the circuit-breaking devices, by which the indicators are operated, against any subsequent use prior to the reestablishment of the normal condition of the line by the discontinuance of its use by the rst parties.
Still other features of invention reside in providing means, consequent on the abovementioned features, for preventing any but the parties at the two stations originally connected being able to participate in the conversation, that is, in providing means/whereby, when any two stations are connected and in communication with each other, an operator at any other station is prevented from hearing what is passing between the tirst parties, t'. e., establishing a strictly private line between the rst two parties connected.
In the drawings, see Figs. l and 2, 1 indicates a back board on which is supported the different parts of my operating mechanism, and which, in connection with the transmitter, which is preferably independently supported, and the local battery, or batteries, I shall term an instrument, and comprises all the necessary parts for a set at one station.
Secured near the lower end of the board 1, is a train of spring-actuated mechanism which is adapted to rotate a shaft2 (sce Figs. 3 and l0) to the outer end of which is connected a disk 3 provided with pins or studs 4, the function of which, when the disk is made to rotate, is to engage with and vibrate 'the nger 5. The finger 5 (see Fig. 10) is mounted on the rock-shaft 6 surrounding which is a torsion spring 8. One of the offices of the spring 8 is to always hold the finger 5 in a position ot interference in the path of the pins or studs 4 when they are revolved by rotation of the disk 3.
Projecting laterally from the rock-shaft 6 is an arm carrying on its end an insulation-block 9 in which is carried a contact point 10, which contact point is adapted to make electrical contact with an adjustable contact point 11, mounted in a suitable support. Electrical connection is made with these two points, respectively, from the other parts of the instrument as will be explained later on. Electrical contact between the two points 10 and 11 is normally maintained by the spring 8, except at such times that the arm 5 is oscillated by the movement of the pins 4, when the points are temporarily separated and the circuit therethrough broken. The main line, as hereinafter explained, is permanently connected through these points and also throughthe coils of the magnets 12 (see Figs. 1, 2, and 6) so that when the points 10 and 1l are separated, in the manner described, the circuit through the magnets 12 is for the instant broken and its armature 13 released. The movement of this armature is limited by set screws, in the usual manner. The end of the long extending arm 13a of the armature is slotted or forked so as to embrace and engage with a longitudinally disposed pin 14n in the shaft 14. The shaft 14 carries an escapement fork 15 which engages with and controls the rotation of the escape-wheel 16 in a manner similar to the escapement of clock movement in general.
On the escape-wheel shaft, is an index-hand 17 (see Fig. 9) which travels in front of a dialplate 18 (see Figs. 1 and 2), the face of which is provided with a series of index numbers corresponding in number to the number of teeth in the escape-wheel 16.
It is evident that an escapement could be designed that would of itself force the escape-V wheel 16, and, with it, the index-hand 17, around in the right direction by the oscillation of the armature arm 13a, but, to insure the positive forward movement of the indexhand, and to impose as little work as is possible on the magnets 12, I preferably utilize power to force the escape-wheel always forward, which consists, in a train of springdriven gear-wheels, similar to a clock-movement, as illustrated in Fig. 9. The pins or studs 4 on the disk 3 correspond in number with the numberof teeth on the escape-wheel 16; hence, in the rotation of the disk 3, the pins 4 successively engaging with the free end of the arm 5, the contact points 10 and 1l are separated a number of times corresponding to the number of indices on the dialplate IS-that is, the circuit through the magnets 12 is broken that number of times,which inturn, through vits armature 13 and extension 13n and its retractive spring 13b, actuates the escapement fork the same number of times, causing the index-hand 17 to make one complete revolution. In this manner, it is evident, that if we stop the rotation of the disk at any particular point we may in this manner predetermine the resultant position of the index-hand 17. This is accomplished in the following manner: Mounted ou the extreme outer end of the shaft 2, is a radiallydisposed arm 19 (see Figs. 3 and 10), which is rigidly secured thereto and therefore rotates with the disk 3. Projecting from the under side of a dial-plate 2O (shown in Figs. 1 and 2, but removed in Figs. 3 and l0) is a spring stop-pin 21 which extends far enough from the rearside of the plate 20 to normally IOO IIO
rest in the path of and engage with the end of the arm 19, when the arm has made one complete revolution. To release the arm 19, to allow it to revolve, the spring stop-pin 21 is simply pulled forward and then allowed to spring back to normal position. To stop the rotation of the diski3, it is only necessary to obstruct the arm 19 at the desired point. To do this, I make use of an interference pin 25, for the insertion of which there are provided a number of holes`20f in the plate 2O concentrically arranged about the center of revolution of the arm 19 and within the radial limits of the same. (ln Fig. 10, the upper plate of the movement is shown as provided with a series of perforations corresponding to the perforations 20a in the plate 20.) The number of holes 20a correspond with the number of pins or studs 4 and the insertion of theinterference pin 25 in hole l (see Figs. l and 2) will stop the rotation of the disk 3 after one pin 4 has engaged with the arm 5 1'. e., after the main-line circuit has been broken oncethe magnet armature 13 allowed to make one oscillation, and the index-hand 17 moved one step forward. In this manner,if the interference pin 25 is inserted in the 10 hole, as shown in Figs. 1, 2, and 10, the index-hand will move to number 10 on the dial, that is, the disk 3, after the stop-pin 21 has been withdrawn to release the arm 19 from its position of rest will be stopped in its rotation, by the arm 19 striking against the pin 25, after ten of the pins 4 have engaged with the arm 5 and broken the main-line circuit a corresponding number of times. It will be understood, from what was said before, that inasmuch as the magnets 12 at all the stations are in line, they will be all similarly affected, and that all the index-hands will be pointing to the ten number on the dials. For the sake of illustration, we will, in the future description, assume that the number of the called station is 107 and that of the calling station is 1. Placed so that its end lies in the path of the end of the arm 19, isa contact spring 22 which is supported on the insulation-block 23 and is adapted to normally make contact with the contact-block 24. The end of the spring 22 is so placed relative to the path of revolution of the arm 19 that the end of the arm bears against the spring 22, breaking its contact with the block 24, when the arm is in its norm alposition of rest against the stop-pin 21, but so arranged that, when the arm 19 is released, the spring 22 gives, allowing the arm to pass, making contact with the block 24 byv the time oneof the pins 4 have engaged with and passed the end of the arm 5. The reason for this will be evident later. Secured rigidly to the shaft of the escape-wheel--the index-hand shaft-are two. disks 27 and 31 of rubber or similar insulating material. The free end of a pivoted arm 28 rides'and is held constantly in contact with one of these disks, as 27, Fig. 7, either by gravity or by spring tension. The arm 28 is delicately pivoted in a standard or post 29 with which it is in electrical contact. In the disk '27, is secured a contact pin 26 which, while it is always in electrical connection with the index-hand shaft, is so disposed as to make contact with the end of the arm 28 at one particular point in the revolution of the index-hand shaft, and this is predetermined for each instrument, and is such, relative to the index-hand 17, that the point 26 is in contact with the arm 28 when the indeX- hand 17 is pointing tothe number of the station-i. e., at station No. 10, electrical circuit is established, through the arm 28 and contact-pin 2G, from the post 29 to the indexhand shaft, when the index-hand is pointing f4 to ten on the dial 18. At all other positions of the index-hand the end of the arm is resting on the disk 27 and the circuit is broken therethrough. The object of this arrangement will appear in the discussion ofthedifterent local circuits. The other disk 31 is provided with a diametrically disposed contactpin, which does not make contact withthe shaft on which the disk is supported, but is adapted' to make contact, simultaneously, with two tangential springs 33 which make contact generally, in the rotation of the disk 31 with its supporting shaft, with opposite sides of the circumferential surface ofthe disk. The springs 33 are independently supported on some in` sulating part of the framing of the instrument and are adjustable toward and from each other, at their free ends, by means of the right and left hand insulation screw stem 35. diametrical contact-pin 32, or rather the disk 31 by which it is supported, is so disposed with relation to the rotation of the shaft -on which it is mounted that it makes contact with and establishes electricalcircuit between the springs 33 when the index-hand points to zero on the dial 18. At all other positions of the ndex-hand the circuit which is completed through the springs 33 is broken by the springs, riding on the surface of the insulation-disk 31. The object of this device and arrangement is evident from an inspection of Fig. 8, taken in connection with Fig. 10. The springs 33 are the terminals of a circuit extending through a local battery and the coils of a pair of magnets 30 which control the movements of an armature 30". end of the armature 30et is provided with a projection 19?L which,when the circuit through the magnet 30 is broken, as described, and the armature 30L is retracted by the spring `34, is adapted to come into a position of interference in the path of the arm 19, and this immediately in front of the arm when itis in its normal position of rest `against the stoppin 21. See also Fig. 3.
IOO
The
The free The operative teap described, and the stop projection 19a on the end of the armature 30n is, for the time being, withdrawn to allow the arm 19 to pass. But, by the time the arm 19, and with it the disk 3, in the particular instrument started, has rotated far enough for one of the studs or pins 4 to have oscillated the arm 5 once, the index-hands 17 on all the machines will have moved one step or number forward, and, thereby, this local circuit in all instruments broken and the interference projection 19a thrown into a position to preventthe rotation of the arms 19, even if any of the stop-pins 21 are withdrawn by mistake. This is true until all the instruments are returned to their normal condition by the calling station, which is done by the operator thereat, when he has finished his communication with the called station, withdrawing his' interference pin 25 and allowing the arm 19, and with it the disk 3 with the pins 4, of his instrument, to complete its rotation and come back to its normal position of rest against the stop-pin 21.
The device and method of operation thereof, just described, constitutes my non-'interference locking mechanism.
The non-interference device illustrated in Figs. 7 and 8 is identical in all instruments, as is also the circuit-establishing device, also illustrated in Fig. 7, except that the contact 26 is changed for each instrumentx to correspond with the number of that station, as stated. That is, for example, when any station, as Nd 1, calls any other station, as No. 10, as illustrated in Figs. 2 and 10, the contact 26 at the called station will be in contact with the arm 28, and circuit established therethrough at that station, but at all other stations the circuit is broken thereat by the arm 28 resting against the insulation-disk 27 only. And, (as will hereinafter appear from the discussion of the local circuits at the called and calling stations,) inasmuch as a movement of the arm 19 is necessary for any station to establish connection, (through the instruments thereat, with the main line, and this being prevented by the non-interference device already described,will), as well, prevent any third person from forming a communicating connection with any instrument or station until the first parties are through and have re-established the normal condition of the line. This is further evident from the fact, as will hereinafter appear, that, for communication purposes, circuit has to be established in each instrument in one of two ways:- either at the contact points 22 and 24 or at the contact point 26 with the arm 28. In the first instance, the contact between the spring 22 and the point 24 is broken by the arm 19 at all stations except the calling station, where the arm 19 has left its normal position and has been stopped by the interference-pin 25, and, in the second instance, the only other station where the necessary circuit connections are made is at the called station, where it is completed through the contact 26as it rests against the arm 28.
To effect the circuit manipulations illustrated in Figs. 12 and 13, to be described later, l make use of the hinged phone-hook 36 which is provided with a lateral projection which is adapted in its raised and depressed positions to make contact with two sets of springs. See Figs. 4 and 5. The hook itself is provided with a raising spring 38a (see Figs. 1 and 2.), which is strong enough to raise the hook when the phone is removed from the same but permits the hook to be depressed when the phone is suspended thereon(compare Figs. 1 and 2). There are three springs below and three springs above, with which the hook makes contact in, respectively, its depressed and raised position. The hook 36 itself is one terminal of a circuit and makes direct contact with the springs 37 and 48 in, respectively, its depressed and raised positions. The springs 39 and 38 are interposed in the local bell circuit and are electrically connected together, when the hook 36 is in its depressed positionthat is, as long as the phone 1 is on the hook 7 by both making contact with a contact strap piece 39'LL supported by, but insulated from, the lateral projection of the hook 36. In a similar manner the springs 41 and 42 are electrically connected together, when the hook 36 is in its raised position-when the phone is off the hook-by both making contact with the contact-strap 41L supported on, and insulated from, the lateral projection of the hook.
By an inspection of Figs. 11,12,and'13, considered in connection with the preceding figures, the method of manipulation of the circuits at a calling and called station, and
the consequent arrangement of the same, to,
first, effect a connection between any two stations, at the same time, establishing conditions preventing any subsequent use of a third party prior to the re-establishment of the normal condition of the line by the calling station; second, to effect the operation of the signaling devices at the called station to the exclusion of the other stations on the line, and to stop the same; third, to effect a talking or communicating connection between the calling and called stations, and that to the exclusion of a similar connection with the main line being established at any other station; and, fourth, to effect the return of the condition of the main line, and the local connections therewith at the calling andv a main-line battery, z-b, inserted in thev length of the same, either one at both ends, between the terminal stations and the ground connections thereat, or only one, as shown. This main line is looped in at each station on IOO IIO
the line, being connected with the main-line binding posts 1p and 2p at each instrument.
In the following description ot' the method 'of operation in manipulating the local circuits at a calling and called station, as well as the other stations not called as illustrated by the third set in the drawings (Figs. 11, 12, and 13), to effect the desired connections, it will be understood that the circuit manipulating devices and internal connections are identical in all instruments, or stations, and for the sake of illustration, that the calling station is the one to the left in the iigures, the called station, the one to the right, and stations on the line not called and the conditions of the local circuits thereat, are illustrated by an intermediate station represented by the middle station or set in the figures; and further, that the calling station is No 1 and the called station is Nd 10,wl1ich can, as far as the conditions are concerned, be, in either case, a terminal aswell as an intermediate station.
Between the two main-line binding posts 11 and 2P, the internal circuit, at each station, of the main line is as followsz-From the binding post 1p, by wire t, to one terminal of the index operating magnet 12 (see Figs. 6 and 9), from the other terminal thereof, by wire s, to one of the contact points 10 and 11 of the circuit breaking device (see Figs. 3 and 10), from the othercontact point, by wire tl-r, to the other binding post 2P.
Station Nd 1 desires to call No 10. The operator at the former station (the one to the left in the drawings) pulls his stop pin 21 (see Figs. l and 2), thereby releasing the arm 19 of his instrument, he having previously inserted his interference pin 25 (see Fig. 10) in the hole 20a, corresponding in number to the station he desires to call--No. 10 in this instance. The arm 19 is allowed to revolve until it strikes against the interference pin. The disk 3 revolves with the arm 19, and the pins 4 engage with and oscillate the arm 5 a number of times corresponding to the number of the station desired to be called (10), and this, in turn, at the contact points 1O and 1l (see Figs. 3 and 10), breaks the main-line circuit, thereby oscillating the armature 13. The oscillation of the armature 13, through its long arm 13 (see Fig. G) vibrates the escapement 15 allowing the escape-wheel 16 to rotate a similar number of steps forward, which moves with it the index hand 17 to the number of the desired called station (see Figs. 2, 6, and 9). This serves to describe the method, at any station, of calling up a station and the operation of rotating the index mechanism and edecting the circuit changes and connections, by the devices attached thereto and operated thereby, which I will now proceed to describe. In all the instruments on the line, the index mechanism is similarly affected, the different circuit connections etfected thereby being consequent on the different arrangement of the features of detail in the circuit manipulating devices operated thereby, as will be explained later. As shown in Fig. 11,the arm 19 of the circuit breaking mechanism at the calling station is the only one, in the first instance, in the series of instruments on the line, that has moved from its normal position of rest, at zero, against the stop 21, and, as will appear from the following description,is the only one that can move after any one station has started to call another, until the first station has returned the normal condition of the line, by allowing the arm 19 of his instrument to return to zero by the removal of his interference pin 25. As shown in Fig. 11, the terminals of the exciting coils of the non-interference device, illustrated in Fig. 8 (see also Fig. 7) are connected, respectively, by the Wires g and k to one of the contact springs 33 and one terminal of the local battery fr, the local circuit being completed, by the wire t', from the other spring 33 to the remaining terminal of the battery m. As described, and as shown in Fig. 11,the springs 33 are in electrical connection with each other, through the diametrically disposed circuit-completing pin 32, carried by the insulation disk 31 secured to and rotating with the shaft of the escape wheel 16 (compare with Figs. 7 and 8), when the index hands 17 are at zero, and the circuit completed through the magnets 30, thereby attracting the armature 30ad and retract ing the pin 19L on the end of the armature arm from a position of interference in the path of the arm 19. But when, as described, a calling station has allowed the arm 19 of his instrument to move one or more steps forward (which, by the way, will be a position of his arm 19 beyond the influence of the projecting pin 19a), the disks 31, and with them the diametrical pins 32, of all the instruments will have moved far enough to open the circuit between the contacting ends of the springs 33, thereby allowing the retraction spring 34, of the armatures 30a, to act and bring the armatures 30* to the dotted line position shown in Fig. 8, and, in this manner, place an obstruction to prevent the forward rotation of the armsl9 from theirnormal position of rest, at all instruments except at the calling station. This condition will remain until the calling station has allowed the arm 19 of his instrument to return to zero, (by the removal of his interference pin 25. In thus returning the arm 19 at the calling station to zero, the main-line circuit will be again broken a number of times and the armatures 13 inuenced to rotate the disks 31 to again bring the diametrical pins 32 to their normal position for closing the circuit between the ends of the springs 33; when the condition of closed circuit for the magnets 30, attraction of the armatures 30n and consequent freedom of movement of the arms 19, will be re-established. It is evident that after the arm 19 and disk 3, with pins 4, at the IOO IIO
calling station, which l will for convenience, call No. 1 (the one to the left in the drawings), has been released and stopped by the interference pin 25, inserted in the hole 20, corresponding to the number of the station it is desired to call, No. 10 (the one to the right in the drawings), the circuit through all the magnets 12 will have been broken a number of times and the index hands of all the instruments connected with the line will have been moved, and the cross-connecting bar'32 at all stations, including stations not called as Nd 5 (the intermediate one in the drawings), be moved to break the circuit at the springs 33, through the magnets 30, as shown by the dotted lines positions shown in Fig. 11.
Turning now to Fig. 12, in which the local circuits for the signaling device (the vibrating bells shown in Figs. 1 and 2, the operating magnets 43 of which are shown in the ligure under discussion) are added to what is illustrated in Fig. 11. Inasmuch as the circuit of the local battery for the non-interference magnets 30 is open, as described, at all times, except when the index hands are at zero -t'. e., at all times When it is desired to operate the signaling devices, I preferably make use of the same battery, az, for operating the magnets 43 of the signaling devices at the calling and called stations. As
shown in Fig. 7, there is secured to the shaft of the index hand17 a disk 27 of insulating material, Which carries the radially disposed contact pin or arm 26, in electrical connection with the shaft and framing of the index mechanism, and adapted to make electrical contact with the lever arm 28 at one of the positions of vrevolution of the index hand 17, as described. The position of this contact pin 26 is differently set circumferentially for each different machine, t'. e., set s0 as to make contact with the lever arm 28 when the index hand 17 is pointingto the number on the dial 18 corresponding to the number of the station 10 at station No 10, as shown at the called station in Fig. 12. There is placed in each instrument a circuit breaking device 22--24 (see Figs. 3 and 10) operated by the end of the arm 19, to open the circuit connected therethrough when the arm 19 is resting at zero, as shown in Fig. 3, and, at the called and intermediate station, in Fig. 12. At the station No. 1, the calling station, the arm 19 having been allowed to start and leave its normal position of rest at zero, the circuit is closed at the circuit breaker 22-24. The local circuit to the signaling magnets 43 is connected in parallel circuit, in each instrument, through the circuit closing device 26-28 and the circuit breaking device 22-24, and it is necessary that one of these devices be closed to close the circuits for the magnets 43. It is further evident, lfrom what has been said, and from an inspection of the local circuits outlined in Fig. 12, considered in connection with the following description, that itis only at the calling and at the called stations that it is possible for either of these conditions or closed circuit to exist.
The local circuit for operating the signaling devices, at all the stations, is as folloWs:- From one terminal ot' the operating magnets 43, by wire c and the branch circuits cZ-e and d, to, respectively, the framing of the index mechanism, 't'. e., the contact pin26, and one of the contact points, as 24, Where this local circuit is brokenv by lthe end of the arm 19 when it is at zerog from the other contact point 22, and the contact arm 28, by branched circuit c and l), to the contact spring 37, which is adapted, when the phone-hook is depressed, to make contact with the shank of the hook 36; from phone-hook 36, the circuit is continued, by the wire y, and the Wire k, to one terminal of the battery from the other terminal of the battery x the circuit is continued, by Wire z, to the contact spring 39 which is one of two springs adapted to make contact in the depressed position of the` phone-hook, with an insulation plate 392L secured to the phone-hook; the other contact spring 38 is connected, by wire f, to the remaining unoccupied terminal of the coils of the magnets 43, thereby completing the circuit When manipulated as I will now describe:-The circuit to the non-interference magnets 30, shown in Fig. 11, including the battery x, may be disregarded in the discussion of the local circuits for the signaling magnets 43, inasmuch as the vsame is open now, at all instruments, between the contact springs 33. circuit to the magnets 43, as described, Will evidently be closed, at the contact points 22 and 24, as soon as the arm leaves its position at zero, and remain so until the arm 19 is returned to its normal position thereat, by the operator at that station, when he has tinished his communication. At all other stations, inasmuch asl the arms 19 have not been and cannot now be, moved from their position at zero, the circuit is open at this point. At the called station, No. 10 in this instance, the shaft of the index mechanism has been rotated, in the manner described, and carried with it the radial contact pin 26, until it is in a position to make contact with the arm 28 and close this local circuit thereat. At all the 'other stations, the circuit is open at this point. In this manner, the signal bell at the called station Iand at the calling station is being rung through the operation ot' the magnets 43. As described, the circuit is completed through the hook 36 and the spring 37, so that when, at the calling or called stations, the hand-phone is removed from the hook 36 and the hook allowed to raise, t'. e., come to the dotted line position shown in Fig. 12 at stations No.1 and No. 10, the circuit will be opened thereat and the bells stopped ringing. When the operator at the calling station, after he has At the calling station, the local IIO completed communication, removes his interference pin 25 and allows the arm 19 of his instrument to return to zero, the circuit just described will be open, at all stations, both at thecontact points 22-24 and at the contactpin 26.
Directing our attention now to Fig. 13, in which the talking circuit is outlined, in addition to what is shown in Fig. 11, I will describe the arrangements of the local circuitsand the means by which a talking set can be connected at the calling and called stations, to the main line. Main line circuit is effected by grounding the main line at the calling and called stations, after having arranged thelocal circuits as will appear from the following description.
It will be understood that to use the instrument for talking, or other means of intercommunication, between the called and calling station, it is preferable that no use can be made of such instrument for such purpose without effecting the circuit changes in the following manner: In the use of a set, such as illustrated, I make' use of the raising of the phone-hook from which the handphone is usually suspended. First, one terminal of the primary of the induction coil of the transmitter j is connected, by wire n, the contact spring 4S, which is adapted to make contact with the body of the phone-hook 36, which, as already described, is connected by the wire y to one terminal of the battery w. The other terminal of the primary of the transmitter coil is connected, by wire m and the wire e', to the other terminal of the battery 00, thereby completing the circuit, when the phone-hook is raised, for the primary of the transmitterj; second, one terminal of the secondary of the transmitter j is connected to ground by the wire o; the other terminal being connected, through the coil of the handphone Z, by the wiresp and r, to the branched circuit which is connected by wires l) and c to, respectively, the contact arm 28 and the contact point 22. Finally, the internal main line circuit wire s is connected, by Wire q, to one of two springs, as 4l, which are adapted to make contact with, and be electrically connected by, the insulated plate ila supported on the phone-hook 36, and the branched circuit, connected, respectively, to the framework of the index-mechanism, t'. e., the contact pin 26, and the contact point 24, by the wires d and d-e, is connected, by the wire u to the other spring 42, referred to. The only difference in the circuit manipulatingv devices in Fig. 13, from what is shown in Fig. l2, beingthat the phone-hooks at the called and calling stations are intheir raised positions. This opens the local circuit to the signaling magnets by the hook 36 leaving the contact spring 37. As far as the talking set is concerned, it electrically connects the springs 4l and 4t2 together, and the spring 48 with the phone-hook 36. The latter, as described, completes the circuit for the primary of the transmitterj.
The talking circuit is as follows-#The main line is, as already stated, grounded at the calling and at the called stations, this being the means of effecting the circuit therebetween. `Beginning then at the ground, at station No. l, the circuit is as followsz- From the ground, by wire o, to the transmitter; thence, by wire p, to the hand-phone l; thence, by wires yr, b, and c to the contact point 22it cannot go over the arm 28 as the circuit is open there; from the contact point 24, which at this-the calling-sta tion is in contact with the point 22, by wires d and u to the contact spring 42, across the plate ila to the spring 4l; thence, by wire g, to the internal main line wire s, through the circuit breaking device 10-1I,\vhich is closed over the wire -r to the binding post 2p; and over the main line 7L toward the called station, No. l0. At intermediate stations, as No. 5, in the drawings, the circuit is looped through the instrument and goes in at the binding post 1P, through the main line magnets 12, by wires t, s, and i-r, out at the other binding post 2P. At the called station,l No.
10, the internal circuit is identical with that i described for No. l, the calling station, eX- cept that the branched circuit including the contact pin 26 and arm 28 and the contact points 22 and 24 is closed at the contact pin 26 it being in contact with the arm 28 when this station is called.
From the foregoing description, it is evident that the only part of an instrument at any station other than the calling and the called, as theintermediate station in the drawings, that is, or can be, in circuit are the index operating magnets l2, it being impossible to establish a local ground thereat inasmuch as the local circuits, as described, are open at both the pin 26 and arm 2S and at the contact points 22-24, the arm 19 not being able to leave its position at zero, even if the stop pin 25 is withdrawn, because of the interference of the pin 19a, as described. It is also evidentgthat at the calling and called stations when the local grounds are placed on the main line for communication purposes, there will be a divided ground circuit established thereat, inasmuch as the main line is already grounded at each end. The resistance of the branch to the permanent main line ground, even in the extreme cases when the stations using the line happen to be the terminal stations, can be so adj usted that this ground does not materially affect the use of the main line for communication purposes over the temporary grounds established as described. After the desired communication has been had between the calling and called stations, and the hand-phones have been replaced on the phone-hooks, the operator at the calling station removes his interference pin 25, allowing his arm 19 to reloro turn to zero, thereby returning the whole line and the different instruments, to their normal condition, as illustrated in Fig. 1l.
It is evident that, by completing the local bell-circuits through the spring 37, and the hook 36, when it is in its depressed position, an additional precautionary means is provided to call the attention of the operator at the calling station to withdrawhis interference pin 25 and allow the arm 19 and, with it, the disk 3, to return to its normal position, thereby bringing all instruments back to their normal, or zero indication, position; that is, when he has finished his conversation with the called station, he will naturally hang his phone on the hook, which will depress the hook, thereby closing his local bell-circuit and cause his bell to ring until he has withdrawn his interference pin 25 and allowed his instrument, and, with it, all the other instruments in the system, to come back to normal.
Having thus described my invention and its method ot' operation, what I claim, and desire to secure by Letters Patent, is-
1. In a telephone system, the combination with a main line, and a battery therefor, of a series of magnets permanently connected in said line, an armature for each of said magnets, a circuit breaker in the main line for each of said main line magnets, power driven mechanism for actuating said circuit breaker, a step-by-step escapement mechanism which is operated by the armature of the main line magnet, and means, actuated by the escapement mechanism, for controlling a local circuit in which is inserted a magnet, the armature of which is adapted to control the said power driven mechanism and its operated circuit breaker, substantially as an d for the purposes specified.
2. In a telephone system, the combination with a main-line and its battery, of a series of magnets inserted therein, a step-by-step mechanisn1,whose escapement is controlled by the armature of said magnets, power driven mechanism for breaking the main line circuit, and a local circuit comprising two parallel branches one of which branches being controlled by the movement of the escapement mechanism and the other by the movement 'of the said power driven mechanism, substantially as and for the purposes specified.
3. In a telephone system, the combination with a main line, a magnet, battery, and circuit breaker inserted therein, of a step-bystep mechanism operated by the armature of said main line magnet, a local-circuit controlling device operated by the escapement ywith a main line, a magnet, a battery, and a circuit breaker inserted in the same, of the herein-described means for operating the circuit-breaker, consisting in a revoluble disk provided with projecting pins adapted to engage with and operate the circuit breaker, a removable step for retaining the revoluble disk at its normal position, an adjustable stop for stopping the disk at any position other than its normal, substantially as and for the purposes specified.
5. In a telephone system, the combination with a main line, a series of magnets, a battery, and a series of circuit breakers inserted in the main line, of means for operating the circuit breakers, consistin gin a revoluble disk provided with projecting pins adapted to engage with and operate the circuit breakers, a removable stop for retaining the revoluble disk at its normal position, an adjustable stop for stopping the disk at any position other than its normal, and means for locking all other revoluble disks against rotation when any one disk has been started, substantially as and for the purposes specified.
6. In a telephone system, the combination with a main line, a magnet, a battery, and a circuit breaker inserted in the main line, of means for operating the circuit breaker, con.- sisting in a revoluble disk provided with projecting pins adapted to engage with and operate the circuit breaker, a radially projecting arm secured to the supporting shaft of the said disk, a stationary disk provided with a series of holes corresponding in number to the pins on the revoluble disk, and a pin, or pins, adapted to be inserted in the holes and engage with the said radial arm, substantially as and for the purposes specified.
In testimony whereof I herewith aiix my signature, in presence of two witnesses, this 21st day of November, 1892.
WILLIAM W. DAVIS.
Witn ess es:
A. RAMEL, HUG-H K. WAGNER.
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Publication number Priority date Publication date Assignee Title
WO2017127384A1 (en) 2016-01-19 2017-07-27 Premier Coil Solutions, Inc. Chemical mixing and pumping unit and methods for oilfield operations

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2017127384A1 (en) 2016-01-19 2017-07-27 Premier Coil Solutions, Inc. Chemical mixing and pumping unit and methods for oilfield operations

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