USRE15068E - blessing - Google Patents

Description

J. G. BLESSING.

AUTOMATIC TELEPHONE SWITCHING APPARATUS.

APPLICATION FILED MAR Z, 1917.

Reissued Mar. 22, 1921. 15,068.

10 SHEET HQJ.

J. G. BLESSING.

AUTOMATIC TELEPHONE SWITCHING APPARATUS.

APPLICATION FILED MAR 7, 1917- 15,068. 10 SHEETSSHEET Reissued Mar. 22, 1921.

QPE NA A kmw AA h kw q 1 Q5 5 J. G. BLESSING.

AUTOMATIC TELEPHONE SWITCHING APPARATUS.

APPLICATION FILED MAR. I. 1917.

Reissued Mar. 22, 1921. 15,068.

10 SHEETSSHEET 3- Q m M m ,R R Q g q E i WEEK);

- [nUEL-LZUI" 7 HZTQZIEQ J. G. BLESSING.

AUTOMATIC TELEPHONE SWITCHING APPARATUS.

APPLICATION FILED IIIAII. 7, I917.

Reissued Mar. 22, 1921. 15 ,068.

10 SHEETS SHEET 4.

HZZurngy J. G. BLESSING.

AUTOMATIC TELEPHONE SWITCHING APPARATUS.

APPLICATION HLED MAR. 7. 1917.

Reissued Mar. 22, 1921. A 15 ,068.

l0 SHEETSSHEET 5.

HZ Z51" n5 W J. G. BLESSING.

AUTOMATIC TELEPHONE SWITCHING APPARATUS.

APPLICATTON FILED MAH r, 1917.

Reissued M111. 22, 1921. A 15 ,068;

10 SHEETSSHEET 6- 1 g [L'LU z-LZUF @5 2 a: 53%

. J. G. BLESSING.

AUTOMATIC TELEPHONE SWITCHING APPARATUS.

APPLICATION FILED MAR. 7, 19]?- 15,068. 10 SHEETS-SHEET I.

Reissued Mar. 22, 1921.

i am .l. G. BLESSING.

AUTOMATIC TELEPHONE SWITCHING APPARATUS.

APPLICATION FILED MAR. 7. 1917.

Reissued Mar. 22, 1921. 15 ,068.

10 SHEETSSHEE'I B.

J. G. BLESSING.

AUTOMATIC TELEPHONE SWITCHING APPARATUS. APPLICATION FILED MAR. 1, 1917.

Reissued Mai. 22, 1921. 15,068.

10 SHEETSSHEET 9.

r v 1171521201 42 @w .l. G. BLESSING.

AUTOMATIC TELEPHONE SWITCHING APPARATUS.

APPLICATION FILED MAR. 7. 1911.

Rejssued Mar. 22, 1921. A 15 ,068.

10 SHEETS-SHEET 10.

A [must-afar 2 l? UNITED STATES PATENT OFFICE.

JOHN G. BLESS IN G, OF CHICAGO, ILLINOIS, ASSIGNOR TO AUTOMATIC ELECTRIC COMPANY, OF CHICAGO, ILLINOIS, A CORPORATION OF ILLINOIS.

Original No.-1,145,542, dated T 0 all whom it may concern:

Be it known that I JOHN G. BLEssING, a citizen of theUnited states of America, and resident of Chicago, Cook county, Illinois, have invented a' certain new and useful I-mprovement in Automatic Telephone Switching Apparatus, of which the following is a specification.

automatic switch is of the kind known as a selector. In other cases the line thus found will be a subscribers line, and in that event the switch-will be. of the kind ordinarily known as a connector. The rotation of a selector is, of course, purely automatic so that an idle trunk line is automatically selected. The rotation of the connector is, however, directly under the control of the calling subscriber, or the calling operator, if the system be semi-automatic.

Ordinarily, the callin'g.mechanism, by which automatic switches ,of this or any other suitable character, are controlled, must be operated somewhat slowly, or at least not toofast, so that the transmission of the electrical impulses will properly control the switches. This, of course, in some cases, means that the calling operation will tend to delay the work of the operator or other person making the call, or at least absorb too much of the time and effort of such person, owing to the more or less deliberate manner in which the manual manipulation of the calling mechanism must be performed, for the reasons stated. Take,- for example, the case of the system 1n which the automatic switches are controlled by the manual switchboard operator. In a system of this kind, and with the ordinary calling mechanism, the operator would be giving over a large amount of time and effort to the operation of the calling mechanism whereas, if the said mechanism could'be operated very quickly, the call could be made with Specification of Reissued Letters Patent. Rei d 31 1 July 6, 1915, Serial No. 586,530, filed October reissue filed March 7, 1917, Serial No. 153,216.

22, 1921. 11, 1910. Application for despatch, and the operator would then be free to do something else. a

It has been recognized, therefore, that, for various reasons, a calling mechanism that could be operated manually as fast as the operator is capable of working, and which would then more slowly transmit the electrical impulses leaving the operator, or other person, free to be doing something else, wh le the call is being transmitted, would he desirable,and some effort, so I understand, has been made along this line. So far, however, I do not understand that the results have been entirely satisfactory.

Generally stated, therefore, the object of my invention is to provide an improved and h ghly efficient calling mechanism of the kind in which the manual operation thereof is performed swiftly and as fast as the operator or other person is capable of workmg; and in which, while such person is then free to do something else, the electrical im- ,pulses are transmitted more slowly and in to properly control the manner calculated the automatic switches.

The special object of my invention is to prov1de a calling mechanism of this general character in which a single set .of keys is sufiicient for calling any number having a plural ty of digits-that is to say, having provisionwhereby any key may be pushed or actuated more than once during the set ting up "of the call, in all cases where two or more of the digits of the called member are the same, thus rendering it unnecessary to employ more than the single set of keys for controlling the, device by which the electrical impulses are "transmitted.

A further object is to provide an improved method of spacing apart the different digits of any called number involv-- hind the operation of the keys or push but-- spring, and whereby transmission ofthe impulses may follow at a variable distance betons by which the mechanism is controlled in accordance with the called number.

A further object is to provide improved means for varying the number of impulses necessary for each digit of the called nu1nber, involving a circular series of movable contacts, and means for skipping a number of contacts for each digit of the called number, and for actuating one or more contacts between the groups of skipped contacts, to space the digits apart, which skipping and actuating means are controlled by a set of keys or push buttons.

It is also an object to provide certain details and features of improvement and combinations tendmg to increase the general efficiency and serviceability of a telephone exchange system of this particular character.

To the foregoing, and other useful ends, my invention consists in matters hereinafter set forth and claimed.

In the accompanying drawings Figures l, 2 and 3 taken together show acomplete circuit connection between a calling manual substation A and a called automatic substation A in a system embodying the principles of my invention. Fig. 1 shows the connection extended from the manual substation A through the operators cord C to a trunk line leading to an automatic exchange. In Fig. 2 there is represented an automatic switching apparatus consisting.

of a line or trunk switch D, master switch E and selector switches F and H. In Fig. 3 there is represented a connector switch -I, and a line switch I) which is individual to the line of substation A Fig. 4: is a diagrammatic representation-of a system embodying the principles of my invention.

Fig. 5 is a plan view of my improved operators calling mechanism.

. Fig. 6 is a sectional view on the line 6-6 of Fig. 5, but showing nothing beyond the.

line 7--7.

Fig. 7 7-T of Fig. 5, but showing nothing beyond line 9-9.

Fig. 8 is a view of a section on line 8-8. but showing nothing beyond line 9--9.

Fig. 9 is a view of a section on line 9-9, but showing nothing beyond line 77.

Fig. 10 is a view of a longitudinal section on the line 10 -10 of Fig. 5

Figs. 11 to 18. inclusive, are detail views of'parts of the apparatus at different stags of its operation.

Fig. 19 is a view representing the circuit connections of the calling device.

Fig. 20 is a diagram showing the principle of the mechanism in simplified form.

is a view of a section 011 the line I shall first describe 'the construction and method of operation ofthe operators calling device which is illustrated in Figs. 5 to 19, inclusive. In these figures 2 represents a suitable base near one end of which are mounted two upright posts 3 and 4 (Fig. 6), near the top of which are secured two flat cross pieces 5 and 6. In these cross pieces there are mounted'ten push buttons 7. Each of these push-buttons is normally held in its uppermost position by a spring 8 The lower ends of the push buttons 7 are preferably flattened and extend into openings in the cross piece 6, butdo not project below the lowersurface thereof. To each of the push buttons 7 there is secured alaterally projecting arm 9 whichnormally engages the so I under side of the plate 5 to limit the upward motion of the button. When any button is pressed, its arm 9 is adapted to register with a diagonal slot in a bar 10. The bar 10 is loosely'mounted at each end in a block 11, so that whenever any of the buttons 7 are pressed, the said bar will be forced to slide toward the left; as shown by dotted lines in Fig. 6.

Near the center of the base 2 there is mounted a drum consisting of a central portion 12 (Fig. 10), two end plates 13 and 14 and an outer casing 15. The plates 13 and 14 are provided near their peripheries with a number of slots'in which are loosely supported the endsiof a number of fiat pins 16. Inside the drum these pins are provided near each end with a shoulder 17 which limits their motion in either direction. In order that the pins 16 may not slidetoo easily, each pin is provided with a U-shaped spring 18, one end of which is secured in a slot in the center piece 12, while the other end bears against the side of the pin. The

'lateral pressure of this spring on the pin produces sufiicient friction to prevent the said pin from being affected by jars or vibration. Extending through the center of this drum there is a hollow shaft 19, to the ends of which are secured the arms 20 and 21. At its outer end the arm 20 is bent at right angles toward the plate 13 and is beveled, as shown in Figs. 11, 12 and 13, so that any projecting pins which it passes in its revolutionwill be forced back, flush with the plate 13. v The arm 20 also carries two contact springs 22-and 23, Fig. 9. The end of spring 23 is V-shaped, so that whenever the said spring passes one of the pins 16 which is projecting from that side of the drum, the spring 23 is momentarily forced into contact with spring 22. The arm 21 carries at its outer end a bell crank 2&, Fig. 7, one end of which is provided with a pawl 25 which is adapted to be forced into a notch of the ratchet wheel 28 when the end 26 strikes the arm 4:3. The ratchet wheel 28 is rigidly secured to the plate 14. Inside the hollow shaft 19 there is secureda'small is journaled. The other end of the shaft is journaled in the lug 31 which projects downward from the plate 6. Secured to the shaft 30 there is a ratchet wheel32 which is adapted to be engaged by the pin 33 which projects from an arm which is attached to the sleeve 34. Also secured to the sleeve 34 there is a segment of a gear wheel 35 which meshes with a rack 36 secured to the under side of a plate 37 which is loosely mounted upon the under side of plate 6. The other end of the sleeve 34 is provided with a flange 38 which lies between the rollers 39' and 40 on the end of. arm 41. On the shaft 30 there is a second sleeve 42 which has a flange projecting between the rollers 39 and 40. To the other end of the sleeve 42there is secured an arm 43, the outer end of which is bent at right angles so as to engage the pins 16. From the arm 43 a pin 44 projects through a slot in an arm 45 which is secured to the shaft 30. With this arrangement, the arm 43 is which is journaled at its lower end in the base 2, and near its upper end in the lug 49 which projects from the plate 6. ,To the upper end of the shaft '48 there is secured an arm 50 which is pivotally secured to the bar 10 (Fig. 6). The spring 51 tends to turn the shaft 48 in a counterclockwise direction, thus holding the end of the arm 43 against the plate 14, and causing two of the pins 16 to project through the other side of the drum, as shown in Figs. 11, 12 and 13. The arm 20 which is attached to the hollow shaft 19 is provided with a pin 52 which projects through an opening in the arm 53. The arm 53 is secured to the shaft 54 which is journaled in the side pieces 55 and 56 of a clockwork mechanism. To the shaft 54 there is secured a gear wheel 57, to the hub of which there is fastened one end of a coiled spring 58. -The outer end of spring 58 is attached to the inside of a cup 59 which is formed on one face of a ratchet wheel 60. The ratchet wheel 60 isloosely mounted on the shaft 54. A pawl 61 (Fig. 8) prevents the ratchet wheel 60 from rotating backward. The wheel 60 may be rotated forward by means of the solenoid 62 through the medium of the arm 63 and pawl 64. Of course, it is evident that, if the wheel 57 is held. stationary while the wheel 60' is being rotated, tension will be stored in the spring 58, tending to cause the bushing 29' in which one end of the shaft 30 impulse wheel 67 is provided with a numher of arms 68 which momentarily press the springs 69, 70 and 71 into contact as the wheel revolves. At 72 there is represented a' relay which, when energized, forces the end of they arm 73 into the path of the arms 68 and shifts spring 74 out of engagement wlth spring 75 and into contactwith spring 76. The speed of operation of the mechanism is controlled by the. governor springs,

77. These springs 77; are secured to the worm gear- 78 which registers with a gear 79 on the shaft 66. When the speed becomes too great the weights oh the ends of the springs 77 move outward and rub on the walls of thecup 80, thereby producing a braking effect. The relay 72 is provided with a copper collar 81 around one end of its core, thus making it slow to denergize when its circuit isjbroken.

The plate 37 which is mounted on the under side of the plate 6 is provided with a number of laterally projecting arms 82, 82, 82 etc. Figs. 14 and 15 show the under side of the plate 37 together with the lower ends of the push buttons 7. Fig. 14 also shows'the apparatus in normal position, in

which position the distance from the lower ends of the #1 button to the arm 82 is onethird the distance fromthe #3 button to arm 82*, one-fourth the distance from the #4 button to its corresponding arm, etc.

Fig. 15 shows the plate 37 in the position which it assumes when the "#0 button is pressed and said plate has moved endwise until the arm 82? strikes the projecting end of said button.

Referring to Fig. 19, it will be seen that the windings of relay 72 and magnet 62 are connected tothe binding post 87, to which is connected the 'non-groulfded terminal of battery B. The grounded terminal of the battery is connected to binding post 86 and.

' thence to spring '71 and to the frame of the apparatus at 88, thence through the arm 20 (Fig. 9) to the spring 23. The spring 22 is insulated from the arm 20, but is connected with an insulated ring 89, through a wiper 90. The ring 89 is connected to the winding of relay 72: The spring 69 is connected with s rin 74 and s rin s 75 and 76 are connect;

P e. P e

ed with the binding posts 84 and 85, respectively, to which the two sides of the line are connected when a call is being made.

The method of operation of the mechanism is as follows: The tension of the spring 58 normally tends. to rotate the gear wheel 57. This force is transmitted through the arm 53, pin 52, arm 20, and hollow shaft 19 to arm 21. This forces the end 26 of the bell crank 24 against the end of the arm, 43,

forcing the pawl 25 into a notch of the stationary ratchet wheel 28, thereby locking the mechanism. The arm 43 is prevented from rotating because it is held against the plate 14.and therefore engages the side of one of the pins 16. When the arm 43 is in normal position two of the pins 16 are forced to' the plate 13. Whenever it is desired to call .cession.

9 attached thereto engages the correspond a number, the buttons corresponding to the digits of that number are depressed in suc- Vhen a button 'is pressed, the arm ing slot in .the bar 10, forcing the bar to the le t (Fig. 6). This endwise movement of the bar 10 rotates the shaft 48 which,

through the medium of the arm .41, withdraws the end of the arm 43 beyond the end of the pins 16 and forces thev pin 33 into a notch of the wheel 32. As soon as the end of the arm 43 clears the pin against which it has been resting, the spring 47 causes said arm to be rapidly rotated. This rotation is transmitted through the shaft 30, wheel 32, and pin'33 to the toothed sector 35 which.

meshes with the rack 36. The rotation of the sector causes the rack 36, and consequently the plate 37 to move endwise until.

an arm on the plate 37 strikes the end of the button which has been depressed. This engagement of the arm of the plate 37 with the button limits the travel of the arm 43. The arms on the plate 37 are so spaced that whenever any button is pressed, the arm 43 travels just far enough to pass a number of pins corresponding to the number of the button pressed. When the button which has been depressed is released, the spring 51 restores the bar 10 to normal position, forces the arm 43 against the plate 14 and withdraws the pin 33 from the wheel 32. lVhen the pin 33 disengages the wheel 32 the plate .37 is restored to normal position by the spring 83 (Fig. 6) through the medium of the sector 35 and rack 36. When the arm 43 is forced against the face 14 of the drum, two of the pins 16 are forced through the plate 13 into the path of the spring 23, andthe arm 43 is prevented from rotating farther by the next pin. As soon as the arm 43 disengages the end of the lever 24 when the button is pressed, the pawl 25 disengages the ratchet wheel 28 and the arms 26 tioned that each time the spring 23 passes the positionof one of the pins 16, the impulse wheel 67 forces the springs 69, 70 and 71 into contact. The first pin which the spring 23 passes is projecting from the plate 13 so that thefirst time the springs 69, 70

72 and closure of springs 69, 70 and 71 completes a circuit from ground Gr through springs 71 and 69, and 74 and 76 to the binding post 85, and thence to the line which is connected therewith. Since the relay 72 is energized, the arm 73 engages one of the arms of the wheel 67, bringing the mechanism to rest just after the springs 22 and 23, and 69, 70 and 71 are disengaged. Fig. 17 shows the condition of this portion of the apparatus when.the relay 72 is energized, and the springs 69, 70 and 71 are in contact. Fig. 16 shows how the impulse wheel 67 is stopped by the arm 73 after said wheel has advanced for enough to allow springs 69, 70 and 71 to disengage. The relay 72, being slow acting, holds its armature in its operated position for a short time, and then allows the" arm 73 to be withdrawn from the path of the wheel 67, as shown in Fig. 18. The mechanism then begins to operate again. and the wheel 67 forces springs 69, 70 and 71'into contact a number of times,

corresponding to the digit called, each time cred the springs 69, 70 and 71 are oncemore forced into contact, and at the same time the springs 22 and 23 are brought into engagement because the spring 23 has again reached a pin which is projecting into its path. The relay 72 again operates in conjunction with the impulse wheel to send a ground impulse to the binding post 85. It will besecn that each time the springs 69, 70 and 71 are'forced into contact by the wheel 67. a circuit is closed from ground G through springs 71 and 70 and through the winding of the magnet 62 to the nongrounded terminal of battery Each time the magnet 62 energizes, it operates to rotate the wheel 60 (Fig. 8) one step to restore the tension to spring 58. i

As the arm 20 rotates it restores'all the operated pins 16 which it"passes to normal position. Fig. 11 shows the arms 43 and 20 in a position of rest. Fig. 12 shows arm 43 just after the #1 button has been pressed and before the arm 20 has had time to start. The arm 43 has been withdrawn from its former position, rotated past one pin and then forced in again and come to rest against, pin 16, causing pins 16 and 16 to project from the other side of the drum. Fig. 13

shows the condition a little later-that is, just before the arm 20 has caught up with arm 43. In this position the pin 16 is almost restoredand pin 16 is just beginning to be forced back. With this calling device it isnot necessary that the apparatus shall come to rest after one button is pressed and before the next button is operated. The buttons representing all the digits of any number may be pressed in rapid succession. The arm 43 will be rotated in a succession of steps. Each button that is pressed causes the arm 43 to be rotated past a number of pins, corresponding to the digit called, and then to force two pins into' the path of the spring 23 on the arm 20. The arms 20 and 21 then follow at a slower speed, one impulse is sent over the line which is connected to the binding post 85 and the mechanism is stopped for a moment by the relay 72, as has been explained. The mechanism then starts again, sends a number of impulses, corresponding to the first digit, over the line which is connected to the binding post 84; then the spring 23 engages the next pin which was forced into its path by the arm 43, causing another impulse to be delivered to the line which is connected to the binding post 85, after which the mechanism will be momentarily stopped by the relay 72. This cycle of operations is repeated in turn for each digit until the arm 21 catches up with the arm 43. With this arrangement the impulses for each digit consist of one impulse over one side of the line, then after a pause a number of impulses are sent over the other side of the line, followed by a sec ond impulse over the first side, then after a short interval of time, the impulses for the next digit are transmitted in the same order.

In order to give a clearer understanding of the operation of the calling mechanism, reference may be had to the diagrammatic drawing (Fig. 20). In this figure the various circular parts of the mechanism, such as the central drum with its circular row of pins 16 and the ratchet wheels 32 and 60, are shown developed into a straight line, and the movable arts are assumed to have a rectilinear motlon. The arrows on the various parts show the direction of their movements. The double headed arrows represent movement in both directions. The impulse wheel 67 is represented in this figure by a straight bar provided with a plurality of "impulse teeth. Referring to this fi re, the mode of operation is as follows:

I pon pressing one of the buttons 7 the'bar 10 is forced to the left, thereby causing the arm 43 to be lifted above the top of the pins 16 and the catch 33 on' the member 37 to be lifted into engagement with the teeth in the ratchet wheel 32. As soon as the end of'the bar 43 is lifted above the top of the pins 16,

the spring-47 forces said bar to theright until one of the projections on the member 37 engages the lower end of the push button whlch was depressed. When this occurs,

the bar 43 will have passed completely over a number of pins 16 corresponding to the button pressed. When the button is released, the bar 10 returns to its normal position, whereupon the catch 33 is disengaged from the wheel 32 and the member 37. restored to the left to its normal position by the spr1ng,83,and the bar 43 causes two of the pins 16 to be pushed through the drum. As soon as the bar 43 leaves the arm 21, the shaft 19 begins to be drawn to the right by the spring 58, its movement, however, being retarded by the governor 77. Upon the initial movement of said shaft, the finger 22 engages one of the pins which was depressed by the bar 43 in its original position, whereby the circuit of the slow acting relay 72 is closed. The relay 72, upon energizing, moves the locking member 73 into the teeth on the impulse wheel 67 and places the spring 74 into contact with the spring 76. After this occurs, the shaft 19 still moves to the leftfar enough to disengage the finger 22 from the pin 16 and to cause the spring 71 to make and break contact with the springs 69 and 70 before the impulse wheel is broughtto rest by the stop 3. The engagementof the springs 71 and 69 while the relay 72 is energized transmits a single ground impulse to the line conductor 85. After sending this impulse, the shaft 19 remains at rest until the slow act- 100 ing relay 72 has had time to deenergize to withdraw the locking member 73 from the impulse wheel 67. When this occurs, the shaft 19 resumes its movement, during which a series of impulses are transmitted 05' from ground through the springs 71, 69, 74 and 75 to the line conductor 84. After a number of impulses corresponding to the push button which was depressed has thus been delivered to the line 84, the finger 22 0 engages the first pin which was depressed by the arm 43 in its advanced position, and transmits another impulse through the slow acting relay 72. The relay 72 operates in the same manner as before to cause a single 1'15 7 impulse to be transmitted to'the conductor 85 and then to momentarily bring the mechani'sm'torest. If, before the mechanism has been brought to rest, the'second button has been pressed, the same cycle of operations above described will be repeated when the' relay 72 deenergizes. If no other button has been depressed, the shaft 19 will simply move forward a short distance upon the deenergization of the relay 72, when it will be brought'to rest by. the engagement with the arm 43".

The manual substation A (F g. 1) with which I have elected to illustrate my invention may be of any suitable type, but, as

herein illustrated, comprises the usual receiver 91, transmitter 92, switch hook 93, finger 94 and condenser 95. At the central office there is allottedto thelineof substa-- tion A two conductors j and 7' a cut-off relay 97, line relay 98 and line lamp 99.

The operators cord C may also be of any suitable type. As herein represented, the

cord C is a well known type of cord circuit,

modified slightly to adapt it foruse either in connecting two manual lines or connecting a manual line with an automatic line. The answering end ofthe cord comprises a plug 79, two supervisory relays 100 and'lOl and a signal lamp 102. 'A battery B is'provided for the purpose of furnishing current for operating the relays and for talking. The calling end of the cord is provided with 'a plug 12 two relays l103 and 104, and a lamp 105. A push button 252 is provided through the springs of which the relay 104 is normally bridgedbetween the two sides of the cord. When the button is in its depressed position the bridge through relay 104 is opened, and the two sides of the cord are connected to the opposite terminals of the battery through the relay 103 and impedance coil 153.

The calling end of the cord is also equipped with the usual ringing and listening keys K and K, and with-a calling device key K by means of which a calling device similar to that shown in Figs. 5 to 19, inclusive, may be connected with the cord. In Fig. 1 the calling device is represented simply by a circle 106. l

The trunk lines leading to the automatic exchange are provided with one or more jacks'f, j etc., with each of which there is associated a busy signal lamp 107. Each trunk line is also provided with two relays 108 and 109 which operate to ca-usethe release of the automatic switches when the plug is removed from the jack.

The trunk switch D, Fig. 2, issimilar to the line switch disclosed in British Patent #26301, of. 1906 and in the AmericamTeZephone Journal of New York, N. Y., of June '6, 1908. Among other details it comprises a plunger (not shown) adapted, when released by the energization of. thet'rip magnet 110, to operate some one group of .a

a number of grou s of springs 111, 112, 113,

1144, 115, 116, 11 and 118. The plunger is restored to normal position by the energization and deenergization of the release magnet 119.

The plungers of a number of line switches D are controlled by a master switch E, which is -a.sl1ghtlymodified form of the general type of masterswitch disclosed in the said British Patent #26,301.of 1906, and the American Telephone J oumal of June 6, 1908. It comprises essentially a motor magnet 253 for operating the ratchet Wheel 254,

any suitable type. substation A is provided with the usual rapes and a bank of contacts comprising an individual contact a for each trunk to which the switch D has access and a common segment 255. The ratchetwheel 254 is connected to the so-called plunger shaft (not shown) in such a manner that the rotary motion of said wheel transmits to the plunger shaft an oscillatory motion to move the plungers that are engaged therewith back and forth in front of the trunk terminals. The circuit of the motor magnet 253 is controlled by the relay 120 and also by springs 121. and 122. The springs 1213and 122 are controlled by the notched wheel 123 in such a manner that said springs can be disengaged only when the plungers that are en gaged withthe plunger shaft are directly in front of the terminal of a trunk line. The wiper 12 1 is attached to the plunger shaft and is adapted to always keep the segment 255 in electrical connection with the contact a which belongs to the trunk line before which the idle plungers are being held by the plunger shaft.

The selectors F and H are of the wellknown Strowger type disclosed in United States Letters Patent #815,321, granted March 13, 1906, to Keith, Erickson &

Erickson.

The connector I is of the general type dis closed in United States Letters Patent #815,17 6, granted March 13, 1906, to Keith, Erickson & Erickson.

The automatic substation A may be of As herein illustrated, the

receiver 125, transmitter 126, induction coil 127, switch hook 129, and ringer 130. To adapt the substation A for operation in an automatic system it is also provided with two impulse springs 1'31 and 132 and an impulse wheel 133 which is secured to a shaft 134, to which there is also secured a dial (not shown) provided with finger holes.

In the diagrammatic representation of the system shown in Fig. 4, M represents a section of a manual switch board upon which .terminate the lines of "a group of substations A. This section of the board is provided with a number of cords C and one of my improved calling devices, represented at a. In thisfigure there is also represented a group of automaticsubstations A terminating at an automatic exchange 1n line switches D These line switches have access to selector switches F.. In this figure the bank contacts-of the selector switches and connectors are represented by three horizontal lines representing three different levels. -A group of second selector switches H and connectors I is also shown. On the manualboard M there is shown group of jacks j with the trunk lines leadlng there- .from to trunk switches D at the automatic exchange. Of course, it is to be understood that the manual board might consist of a number of sections similar to that shown here, and that the automatic exchange might comprise a number of groups of lines, with their accompanying line, selector and connector switches.

In the drawings a plurality of batteries B are shown. Only one battery may be used,

however, or, preferably, one in each exchange.

Having given a general descrlptlon of the apparatus, I Wlll now explain how a connection is established between the substations A into the jack 7', whereby a circuit is closed extending from ground G through the cutoil relay 97, sleeve of jack j and plug 10 and through relay 101 to the battery B. The relay 97, upon energizing, disconnects the ground G and relay 98 from the calling line and extends said line through the jack j and plug 19 to the cordC. The relay 101., upon energizing, connects the lamps 102 and 105 to the non-grounded pole of batteryB. The lamp 105 is lighted by this action, but the circuit of lamp 102 is maintained open by relay 100. After ascertaining that a subscriber of the automatic exchange is desired, the operator inserts the plug p into the jack j 'and operates the key K. The insertion of the plug 19 into the jack 7' connects'the cord C with a trunk line leading to a trunk switch D of the automatic exchange, and by closing contact between springs 135 and 136 causes the busy signal lamp associated with each jack belonging to this trunk to be lighted. The closure of contact between springs 135 and '136 also closes a circuit I through the relay 108 which, uponenergizing, in turn closes a circuit through relay 109. These'two relays remain energized until the plug 19 is removed.- The operation of the key K previously mentioned disconnects the plug 37 from the cord and connects the calling device 106 with the trunk line leading to .the automatic exchange. The so-called vertical side of the trunk 137 is connected with the binding post 84 of the calling device, and the rotary side of the trunk 138 is connected with binding post 85. Assuming that the number of the substation desired is #2220, the operator now presses the #2 button three times and the #0 button once. The calling device then operates in the manner explained totransmit the required ground impulses for causing the automatic switches to extend the connection to line #2220. The first impulse is transmitted from ground through binding post 85, over trunk conductor 138, through springs 139, 140 and 141 of switch D (Fig. 2), trip magnet 110 and springs 142 and 143 to battery lead 144, thence through the battery B to ground G. The energization of magnet 110 allows the plunger of the switch D to be released to press springs 111, 113,115 and 117 into contact with springs 112, 114, 116

- and 118, respectively. The engagement of springs 115 and 116 completes the energizing circuit for the cut-off relay 146, which operates to disconnect the trip magnet 110 from the trunk conductors 137 and 138. The engagement of springs 111 and 113 with the springs 112 and 114 extends the trunk conductors 137 and 138 through to the selector F. The engagement of springs 117 and .118 completes an energizing circuit for the motor magnet relay 120 of the master switch E. This circuit extends from ground G through relay 120, segment 255, wiper 124, contact point 147 which corresponds to the trunk seized by the switch D, thence over conductor 148 and through springs 118 and g 117, release magnet 119 to battery lead 144. The relay 120 is energized over this circuit, but being of comparatively high resistance, does not permit sufficient current to flow to energize the magnet 119. The relay 120, upon energizing, completes a circuit extending from ground G thiough relay 149 and motor magnet 253' in multiple, interrupter springs 150 and relay springs 151 and 152 to battery lead 144. As soon as this circuit is closed the motor magnet 253 begins to operate in a manner similar to that of a' buzzer toqmoy e the plungers of the idle switches D away from the trunk just seized. As soon as the ratchet wheel 254 has been moved one step by the magnet 253, a tooth on the wheel 123 forces springs 121 and 122 into contact, thereby maintaining the circuit of magnet 253 independently of relay 120.

v The motor magnet continues to advance the plungers until the spring 122 drops into the next notch of thewheel 123, whereby the circuit of the magnet 253 is'broken, since by this time the wiper 124 has passed off of contact point 14'] and allowed relay 120 to deenergize. If the next trunk after the one just seized by the switch D has been busy, the wiper 124 would have found the next contact connected tobattery through its corresponding release magnet, the relay springs 152 and 151 would still have been in engagement when springs 121 and 122 were separated and the idle plungers would have been carried on to an idle trunk. It will be remembered that the relay 149 was included in an energizing circuit in multiple with magnet 253. The relay 149 is slow acting and consequently does not have time to denergize during the short intervals when its circuit is opened at the interrupter springs 150. Thus the relay 149 remains in its operated position during the entire time the master switch is operating, thereby disconnecting the battery from the trip magnets 110 of all the trunk switches D of thisgroup, so that no switch can be operated while its plunger is moving.

As has been previously explained, after an impulse is sent over the line which is connected with the binding post 85, the mechanism of the. calling device stops for a short time, and then sends two impulses over the other side of the line. These two impulses pass out of the calling device through binding post 84, thence over trunk conductor 137, bank springs 111 and 112 of switchl), side switch wiper 154 and vertical line relay 155 of the selector F to the battery lead 144.- Each time the relay 155 is energized a circuit is closed throug the vertical magnet 156. This circuit extends from ground G through springs 157 and 158, 159 and 160, and magnet 156 to battery lead 144. Since the digit called is 2 the vertical magnet 156 receives two im-r pulses over the circuit just traced, operating to raise the switch shaft and wipers 161, V162 and 163two steps to a position opposite the second row or level of bank contacts. A second impulse is now sent in over the rotary trunk 138, passing through springs 113 and 114, side'switch wiper 164 of selector F and rotary line relay 165 to batterylead 144. The relay 165, uponenrgizing, closes a circuit from ground G through springs 157 and 166 and private magnet 167 to battery lead 144. The private magnet, upon energizing and deenergizing, permits the side switch wipers to pass from first to second position in a well-known manner. When side switch wiper 168 engages its second-position contact point a circuit is extended from ground Gr through said wiper 168, interrupter springs 169 and 1 rotary magnet 170 to battery lead 144. The

rotary magnet thereupon attracts its armal ture, which rotates the wipers 161, 162 and 163 one step, presses down the armature of the private magnet 167 and opens the circuit of its own magnet at the interrupter springs 169. When the rotary magnet circuit is thus opened, the rotary armature dropsback, and if the first trunk line of the second level is idle, the armature of the private magnet falls back also, allowing the side switch to pass'to third position. "If the first trunk is busy, however, on account of having been seizedby some other selector similar to selector F, a locking circuit is closed through the private magnet 167.

. This circuit extends from ground through the other occupying switch (not shown pr vate bank contacts of the busy trunk,

dium of its interrupter springs, until it has battery lead 144. Sufficient current does not flow over this circuit to energize the relay 172, but the private magnet armature is held in its operated position, thus locking the side switch in second-position. The rotary magnet 17 0 then continues to be alternately energized and denergized through the merotated the wipers onto the terminal of an idle trunk, whereupon the private magnet 167 becomes deenergized and allows the side switch to pass to third position. When the side switch wiper 168 leaves its second position contact point, the operating circuit of the rotary magnet 170 is broken. The passage oftthe side switch .wipers 154 and 164 from second to third position disconnects the relays 155 and 165, from the line and extends the connection through to the second selector H. Also, as soon as the side switch reaches third position, the seized trunk is protected from being seized by another switch, by a guarding potential extending from ground G through side switch wiper 173, relay 17 2 and private wiper 162 to the private bank contacts bf the busy trunk in the banks of all switches by which it is accessible. 7 After the last rotary impulse for the first 'digit 2- is sent in, the impulse mechanism switches are so constructed that the side switch cannot leave first position until after the vertical magnet has been operated one or more times, and it cannot leave second position until the shaft has been rotated one or more steps. The reliminary rotary impulse for the first digit is used to operate the trunk switch D. The vertical impulses for the second digit pass from ground at the calling device 106 over trunk conductor137,

through switches D'and F, and through the vertical line relay 1750f the selector H to battery lead 144. The selector H, operates in response to these impulses in the same manner as explained for the selector F to raise its wipers 176, 177 and 178 two steps. The next impulse over the rotarytrunk conductor 138 passes through the selector F and throughthe rotary relay 179 of' the selector H. The relay 179 causesthe private mag- A net 180 to trip the side switch from first to '-second position just as in the case of the selector F. The wipers of the selector H are then rotated onto the terminals of a trunk line comprising conductors 181, 182 and 183 which lead to an idle connector switch I (Fig. The connector I then operates in accordance with the impulses for the last two digits to complete the connection with the called line. The circuit for the two vertical impulses for the third digit 2 extends from ground at the calling device, over conductor 137, thence through the vertical line wipers 161 and 176 of selectors-F and H,

. over trunk conductor 181 and through the vertical line relay 184 and upper winding of relay 185 of the connector I. The energization of relay 185 in response to these impulses is without function. Each time the vertical relay 184 is energized, however, a circuit is completed extending from ground G through springs 186 and 187, springs 188 and 189, side switch wiper 190 and vertical magnet 191 to battery lead 144'. The vertical magnet 191 receives two impulses over this circuit, operating to raise the wipers 192, 193 and 194 two steps to a position opposite the second row or level of their respective bank contacts. After the vertical magnet has completed itsoperation, the rotary line relay is energized by an impulse from ground at the calling device 106, over trunk conductor 138, through switches F and H,'over trunk conductor 182 and through relay 195 and lower winding of relay 185 to battery lead 144. The relay 195, upon energizing and. deenergizing, sends an impulse from ground G through springs 186 and 197, private magnet 198 and springs 199 and 200 to battery lead 144. The private magnet 198 operates in response to this impulse to cause the side switch to pass from first to second position. In its second position, the side switch wiper 190 places the vertical line relay 184, in control of the rotary magnet 201 instead of, the vertical magnet 191. The ten impulses for the last digit now pass through the relay 184 which operates to close the circuit of the rotary magnet 201 ten times.

With the exception of the magnet itself, this circuit is the same as that traced for the vertical magnet 191. The operation of the rotary magnet causes the wipers 192, 193 and 194, to be rotated ten steps onto the contacts of the called line. The final rotary impulse for the last digit causes the rotary relay 195 to again close the circuit of the private magnet 198, which in turn operates to cause the side switch to pass to third position, whereby the connection is extended to the called line by the wipers 202 and 203. The engagement of side switch wiper 204 with its third-positioncontact point pro-- vides a guarding potential upon the con nector..- rivate bank contacts of the called line, and closes an energlzing circuit for the cut-ofi' relay 205 of the line switch D This guarding potential and energizing circuit extends rom ground G through side switch wiper 204, private wiper 194 and contact upon which it is resting, and thence to the corresponding contacts in the banks of all tions are united over the heavy conductors shown in-the drawings. In order to signal the called line the operator presses the button K after the key K is restored.

'Whenthe button K is pressed it opens the bridge across the trunk through the relay 104 and grounds the vertical trunk conductor .137. tor 137 causes the energization of the connector relays 184 and 185 in the same manner in whichthey were energized by the impulses for the last two digits. Since the side switch is now in third position, the energization of relays 184 and 185 completes a circuit from ground Gd through springs 186 and 187, 188 and 189, side switch wiper 190, ringing relay 210 and springs 211 and 212 to battery lead 144. The relay 210 upon energizing, shifts spring 213 out of engagement with spring 214 and into contact with spring 215, and forces spring 217 into engagelnent with spring 216. -By this operation the connection between the calling and called lines is opened on one side and the ringing generator L is bridged across the called line to ring the bells 130. WVhen the called subscriber removes his receiver in response to this signal, the circuit. of the ringer 130 is broken by the separation of springs 218 and 219 and the primary talking circuit is bridged across the line by the engagement of springs 220 and 221. When this occurs the called substation is provided with talking battery current over a circuit extending from ground G at the connector I through side switch wiper 204, lower The grounding of the conduclead 144.

this circuit and operates to shift the connection of the lower winding of relay 185 from the battery lead 144 to ground at G through side switch wiper 204. By this action a circuit is. completed from ground G through side switch wiper 204, springs 229 and 199, lower winding of relay 185,

rotary relay 195, trunk conductors 182 and '138, sleeve of ack j and plug p, relay 104,

springs 230 and 231, tip of plug p and jack j trunk conductors 137 and 181, relay 184 and upper winding of relay 185 to battery In this instance the current passes through the two windings of relay 185 in opposite directions, thereby producing no effect. The relays 184 and 195 are both energized, but without function at this time. At the cord C the relay 104 is ener-- gized to break the circuit of lamp 105,

, called subscriber has answered.

which signifies to the operator that the The hanging up of the receiver at the called substation after the conversation is completed destroys the circuit Of the connector back-bridge relay 222. This relay 222, upon denergizing, breaks the circuit ofthe supervisory relay 104 at the cord C, which relay allows its armature to fallback, causing the lamp 105 to belighted, and thus giving the operator a disconnect signal. The operator receives a seconddisconnect signal when the calling subscriber hangs up his receiver, thereby breaking the circuit of the relay 100, which allows its armature to fall back to close the circuit of lamp 102. The;

operator thereupon removes the plugs, 12 and p.

The removal of the plug p from'the. ack j destroys thecircuits o-f the busy lamps 107 and of the relay 108. The relay 108, upon deenergi'zing, connects the ground G with both of the trunk conductors 137 and 138 and breaks the circuit of relay 109. The relay 109being slightly slow acting holds its armatures in their operated position for a shorttime after the relay 108 is dee'nergized, and then allows them to drop back to'remove the ground connection'from the trunk conductors 137 and 138. The grounding of the conductors 137 and 138 causes the connector line relays 18.4 and 195 to be energized over circuits which have already been traced. The relay 185 is also energized at this time, since current flows through both of its windings ih the same direction. The simultaneous energization of relays 184, 185 and 195 completes a circuit for the connector release magnet 232, said c1rcu1t extendlng from ground G at the selector H, through side switch wiper 233, release relay 234, private wiper 178, conductor 183, springs 235 and 236, release magnet 232 and springs 211 and 212 to battery lead 144. The releasemagnet 232, upon 'enerigizing, causes the connector I to be immediately restored to normal posiother call.

tion, whereupon the cut-off relay-205 of the line switch D becomes deenergized also. The energization of the release relay 234 of the selector H completes a-circuit forits release ma 'net 237. This circuit extends from ground 5 at the selector F, through side switch wiper 173, relay 172, private wiper 162, springs 238 and 239, and magnet 237 to battery lead 144. The energization of the relay 172 of the selector F completes an en ergizing circuit for the releasemag'net 240. This circuit extends from ground Gi through springs 241 and 242 and magnet 240 to bat-- tery lead. The magnet 240, u on energizing, closes a circuit from'ground 5 through contact point 243, ar'mature'244, springs 118 and nets 119,- 240 and 237 of the switchesD and H hold their armatur'es in position to 117, and release magnet 11-9 of the switch I) to thebattery lead 144. The release mag:

release their respective switches when their circuits are broken following the deenergization of the trunk-release relay 109 (Flg. 1), whereby all apparatus employed in the connection is left in readiness for use in an- The foregoing is anexplanation of how connectionis obtained with an idle line. In

case a line is already in use when it is called, connectionis not completed therewith, and the calling subscriber receives a busy signal as follows: It has been shown that when a line is busy there is a guarding ground po-.

tential at the private contact of that line in the bank of each connector to which itiis ac -cessible. In case the wipers of the connector I are resting upon the contacts of a busy and therefore a guarded line when the final rotary impulse for the last, digit is delivered, the sideswitch does not pass to third position, but the connector is released. The circuit for the release magnet in this instance extends from the guarded private bank. contact, through wiper 194, side switch wiper 204 (which would then be in'second position), springs 245 and 246 .of the private magnet 198 (the circuit of which is closed in the usual manner by the operation of the rotary relay195), magnet 232, and springs 211 and 212 of relay 185 (which is also energized by the rotary impulse), to battery lead .144. Since the connector is in normal position when the ringing button at the cord C is pressed the consequent grounding of the vertical side of the line causes the vertical magnet 191 of the connector to be op-' "erated in a manner which has already been.

explained. As soon as the shaft of the connector is raised one step, the springs 247 .and 248- are closed into contact, whereby the busy signaling machine N' is connected with the calling line.

The circuit OTr'l' which the busy signaling current flows extends from the battery lead 144 through the secondary winding of the induction coil 249, springs 0

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