US2172511A

US2172511A - Printing recorder for electric impulse signal systems

Info

Publication number: US2172511A
Application number: US507898A
Authority: US
Inventors: Clarence C Johnson; Richard M Hopkins; Richard F Spamer
Original assignee: American District Telegraph Co
Current assignee: American District Telegraph Co
Priority date: 1931-01-10
Filing date: 1931-01-10
Publication date: 1939-09-12
Anticipated expiration: 1956-09-12

Description

1*- 12, 1939- c. c. JOHNSON El AL 2,172,511

PRINTING RECORDER FOR ELECTRIC IMPULSE SIGNAL SYSTEMS Filed Jan. 10, 1931 4 Sheets-Sheet l (hub ATTORNEY Sept. 12, 1939. -c. c. JOHNSON ET AL PRIN TING RECORDER FOR ELECTRIC IMPULSE SIGNAL SYSTEMS Filed Jan. 10. 1931 4 Sheets-Sheet 2 [Iii/6721b)??? Clarence (1%i1noo r2 FicfiardHi/oflzhs fiz'chardFJ vamer B Y Q ATTORNEY Sept. 12, 1939.

C. C. JOHNSON ET AL PRINTING RECORDER FOR ELECTRIC IMPULSE SIGNAL SYSTEMS Filed Jan. 10, 1931 4 Sheets-Sheet 3 Sept. 12, 1939. c. c. JOHNSON ET AL 2,172,511

. PRINTING RECORDER FOR ELECTRIC IMPULSE SIGNAL SYSTEMS Filed Jan. 10, 1931 4 Sheets-Sheet 4 a W m? mmh 1 L5 0. w; m odd nwr m m Mk 0 W B Patented Sept. 12, 1939 PATENT OFFICE PRINTING RECORDER FOR ELECTRIC IM- PULSE SIGNAL SYSTEMS Clarence C. Johnson, New York, N. Y., Richard M. Hopkins, Rutherford, N. J., and Richard F.

Spamer, Lynbrook, N.

Y., assignors to American District Telegraph Company, New York, N. Y., a corporation of New Jersey Application January 10, 1931, Serial No. 507,898

41 Claims.

This invention relates to recorders or receivers for electric-impulse code-signal systems and more particularly to printing recorders or receivers for call systems, though it is noted that the invention is not limited in some claims to printing, nor in some claims to electrical devices.

One object of the invention is to provide an apparatus of this kind for receiving the codesignal electric impulses and translating them to Arabic numerals or other indicia.

Another object of the invention is to provide means for printing these indicia.

Another object of the invention i to provide suitable paper feed mechanism for an apparatus of this kind.

Other objects of the invention are to improve generally the simplicity and efliciency of such apparatus and to provide an apparatus of this kind which is economical, durable and reliable in operation, and economical to manufacture.

Still other objects of the invention will appear as the description proceeds; and while herein details of the invention are described and claimed, the invention is not limited to these, since many and various changes may be made without departing from the scope of the invention as claimed in the broader claims.

The inventive features for the accomplishment of these and other objects are shown herein in connection with an improved recorder which, very briefly stated, includes type wheels or car riers with numerals thereon for several digits, and stepping means to set the carriers actuated by electric impulses of call signal systems ,which supply spaced groups of normally spaced impulses.

A slow release selector means held against operation by the normally spaced impulses, is set in operation by the absence of impulses during the intervals between groups, and when thus set in operation, shifts the operation of the setting means from the first digit or hundred type carrier to the next lower digit carrier.

A delayed or slow release printing means held against operation by said impulses during the intervals between impulses and also between the intervals between groups is (after a delay greater than the intervals between groups) released for operation by the absence of said impulses, and prints the numbers on paper and then sets in operation a paper feeding mechanism which in turn sets in operation a reset means for restoring the selector means and carriers to their original positions.

In the accompanying drawings showing. by way of example, one of many possible embodiments of the invention,

Fig. 1 is a perspective view showing the exterior of the receiver;

Fig. 2 is a fragmental perspective view showing and printing means and paper feed mechanism;

Fig. 3 is a fragmental side elevation, partly in section, showing the structure of Fig. 2;

Fig. 3a is an end elevation, partly in section, showing the end of the rocking frame of the paper feed;

Fig. 3b is a perspective view showing the clamping armature of the paper feed;

Fig. 4 is a fragmental side elevation of an end of the rocking frame;

Fig. 5 is a fragmental plan of parts of the selecting and stepping mechanisms;

Fig. 6 is a fragmental side elevation showing parts of the stepping, selector, and resetmeans and magnets and a type carrier;

Fig. '7 is a fragmental side elevation showing a type carrier and associated parts;

Fig. 8 is a plan showing part of the stepping means;

Fig. 9 is a fragmental side elevation showing contacts of the selector switch;

Figs. 10 and 11 are fragmental side and edge elevations showing actuating means for the selector switch;

Fig. 12 is a plan showing a fragment of paper with signals printed thereon;

Fig. 13 is a fragmental side elevation of the detent for preventing'retrograde movement of the paper;

Fig. 14 is a transverse sectional view of the detent;

Fig. 15 is a Wiring diagram showing the electrical connections and their associated mechanisms very diagrammatically and in modified form for ease of presentation; and

Fig. 16 shows a modified form of selector means.

The system as a whole lhe system as a whole will first be very briefly described to give a general idea of its principal parts, after which enough of the construction and operation of the usual transmitter will be discussed to show what the receiver is to accomplish, and then the receiver will be described in detail.

The operation of the subscriber's transmitter or pul1-box code signal wheel 20 Fig. 15) causes regular momentary closures of the

relay switch

25, 26 at the receiving station. thus supplying, to an impulse line 28. groups of normally spaced imoperation a reset mean pulses, with longer spacing intervals between groups, whereby current impulses pass conductors 2'5. 4| to a digit-selector brush 40 initially engaging the contact 35, and subsequently engageable with the selector contacts 36 and 31.

Stepping magnets II, 12, I3, electrically connected to the corresponding selector contacts 35, 3E, 31 actuate means i8, 19, 80 to move associated

numeral type carriers

68, 69, Ill one number on each impulse, thereby initially when the brush 4D is on the contact 35 to set the type for the first digit of the transmitter number.

Alter the first digit is set up it is necessary to connect the impulse line to the stepping magnet of the second digit. To this end there is provided a slow release relay magnet 41 normally connccted to the impulse line and adapted to remain energized between normal impulses but not from one group of impulses to the next group. Thus this magnet becomes deenergized after the first group, and thereby sets in operation means 55. 60, 62 to move said brush 40 from one contact 35 to the next 38, to operate the next stepping magnet I2 and wheel or carrier 69. After the seconddiglt-group, said means 55, BO, 62 shift the brush 40 to the contact 31 and the last digit stepping magnet and type wheel are operated in like manner.

Then the printing operation is initiated by the deenergization of a slow release master magnet 93 connected to the impulse line and energized by the impulses and adapted to hold its magnetism between impulses and groups and until the last group has passed.

As

master switch

95, 96 adapted to be opened and held open by this master magnet when energized and closed when the master magnet is deenergized, and switch means I04, I05 closed by any actuated type carrier are connected in series circuit with a printing magnet I00 adapted when energized to effect the operation of printing hammers III), to print upon the paper I30 (Fig. 3) and to set in operation a paper feeding mechanism I45 (Fig. which in turn sets in I84,I80 and 49, 41, 55, 60 for restoring said brush and carriers.

Other featuresare an alarm system comprising an a

arm switch

203, 204 closed by a projection 200 on one of said type carriers when in a predetermined alarm position to set on an alarm device when means 2l0, 2|I actuated by the printing magnet operates to connect said alarm device in circuit with the current source 3! and the alarm switch 203. 204,

There are provided means 2I4, 2I5 for breaking said last named circuit during normal resetting to prevent the undesired actuation of the switch 203 204.by the projection 200.

Also there is a testing means 27.5 for ener izing the master magnet 93 and stepping magnets TI, 12, T3 for causing normal operation; and there is provided means 230 to hold open the master switch, from closing and eiiecting printing when the printing casing I23 (Fig. l) is raised.

The transmitter This receiver is used in connection with a closed line circuit in which are interposed in series a plurality of subscribers call boxes or transmitters, such as are indicated at the upper left of Fig. 15. As is well known, these transmitters transmit the number of the station, and each signal transmitter circuit usually comprises a normally closed circuit I0, H, i2, i4, I5, I6, I! including a number of normally closed switches such as the switch I0, I I. This circuit includes also a source of current I2 and a relay magnet I4 connected in series in said circuit by conductors I5, I6, ['1 of which conductors l 5, I6 represent the line wires. the switch I0, I I being in the subscriber's call box.

A toothed signal wheel of the transmitter clockwork engages with to openthe switch and has substantially uniform motion, the teeth 2i, 22 of the wheel being uniformly spaced in groups 2|, 22 to represent digits, a single tooth between groups being omitted, to form a space 23 to represent the space between digits. Thus the space 23 constitutes a space greater than the space between adjacent teeth. Therefore, when the toothed wheel is uniformly rotated, the relay magnet I4 will be deenergized at equal small intervals to represent digits, and

.will be momentarily deenergized for slightly larger spacing intervals to represent the space betweendigits of numbers.

The receiver The receiver housing 24 (Fig. 1) encloses the receiver controlled by the magnet I4 and a

line relay switch

25, 26 including the armature 25, which switch automatically closes whenever the magnet is deenergized and thus sends impulses into the impulse line 28, from a local source of current 30 having one terminal 3i grounded, and its ungrounded terminal connected by the charged line 32 to one element 25 of the line relay switch.

Thus, whenever the relay magnet i4 is deenergized, an electric impulse line 28.

The digit selector The digit selector comprises an arcuate series of digit contacts 35, 3E, 11 (Figs. 6, 9 and 15) embedded in a block 01' insulating material J8 39. The contacts are sucfast on a fixed shaft cessively engaged by a brush connected by the conductor 4i to the impulse line 28 and adapted to be successively engaged with said contacts and normally epgageable with the first, or highest, digit contact 35. The brush 40 is carried on an arm 43 rotatably received on the shaft 39 and yieldably retracted by the spring 44 (Fig. 11).

Means for moving said am and brush to a next lower digit contact each occurs between groups of said impulses will now be described.

A selector relay comprising a normally

open relay switch

45, 45 includes a slow release magnet 41 having one end of its coil grounded at 4,8 and the other connected to the movable element or a double throw switch 48. 49, .of a

switch

48, 49, 50, 5|, having one of fixed element 48 connected through the conductor 4i to the impulse line 28, and normally engaged by the movable element 49 whereby the selector relay magnet 41 is normally connected to said impulse line.

One element 45 of the selector relay switch is connected to the permanently charged line 32, the other switch element 48 being connected by the conductor 54 toone end of the coil of an actuating selector magnet 55 having the other end of said coil grounded as at 58. Said selector magnet 41 is constructed to retain its impulse slightly longer than the interval between normal impulses, but not long enough to remain energized entirely throughout the spacing interval between impulsegroups so that the pivoted selector armature 58 (Figs. 6 and i5) is attracted by the selector magnet during the intervals between is sent to the impulse time a spacing interval the pan Ili'of the switch normal impulses and released during the spacing intervals between groups, under the influence of a spring 69 drawing the armature from the magnet.

A pawl 60 carried by an arm 6i movable with said armatureengages a ratchet 62 fast with said selector arm. and actuated by said pawl on the outstroke only, to push said brush 66 from one selector contact 35 or 36 to the, next 36 or 31 each time the selector magnet 66 becomes deenergized.

' when the pawl 60 is retracted by the magnet 55 the projection 60a thereon engages the fixed member 601) and disengages the pawl entirely from the ratchet 62.

The spring N (Fig. 10) retracts the selector arm to normal position during resetting (to be explained later) and a detent pawl 69 mounted on the frame 66 engages the ratchet for holding the selector arm against retraction except during resetting.

The type setting mechanism The shaft 39 (Figs. 5 to 7) carries also a series of digit printing type carriers such as the segments or

wheels

68, 69, I corresponding to the

selector contacts

36, 96 and 31 respectively. Stepping magnets II, l2, 12 associated with the respective type carriers have each one end of its coil grounded .as at I4, and the other end connected by a conductor I6 to the corresponding selector contact 36, 96 'or 91.

Each type carrier is provided with peripheral type I6, 16*, I6 I6 16 (Fig. 7), respectively having type to print corresponding numbers up to 5, except that the highest digit carrier 68 has no f3" type but has type l6 formed to print the letter F", as will be explained in connection with the the signal. A greater number of type can be provided if necessary.

A yieldaby retracted armature I8 is associated with. nd attracted and released by, each stepping agnet on each normal impulse when the stepp ng magnet is selectively connected to the impulse line through the associated

contact

96, 96 or 31, and causes a pawl 19 to engage a ratchet 80 fast with the type carrier. The pawl 19 is carried by a sliding piece 19' (Fig. 8) slidable in a guide 9| mounted on bracket 82 (Fig. 6). pawl is pivoted to an arm 89 fast on the armature 18. g

The piece 19' rests on the stop II, when the stepping magnet is deenergized, thereby disengaging the pawl 19 from the ratchet 00.

The. pawl is normally disengaged from the ratchet, and moves into engagement with the ratchet on each impulse to move the type carrier one higher number on each impulse. A spring pressed detent pawl 86 fulcrumed on a bracket 81 on the frame 65 engages the ratchet 80 and holds the type carrier in set position against the action of the coil spring 90 (Fig. 7).

Operation of the digit selector and the type setting 59,.to cause the brush 40 to engage the next con- The tact 96 and supply the impulses of the next lower digit to the magnet 12, to step up the next lower digit carrier 69.

In like manner, at the next interval between digit-impulse groups, the brush 40 will be shifted to contact 31 and the lowest digit carrier I0 will be set; and the apparatus will be ready for the printing operation to be initiated by the master magnet 99 (Fig.

The master relay The slow release master relay comprises the slow release magnet 93 having an end of its coil connected with the impulse line 28 and the other end grounded as at 94, and a normally closed

master switch

95, 96 adapted to be opened by the attraction of the armature 96 when the impulse linereceives an impulse, and held open (because of the inherently delayed release of the magnet) during the intervals between impulses and during skip of impulses between digit groups and until a short time after the code signal is completed. One element 96 of the master relay switch is connected through conductors 91, 92 to said ungrounded terminal of the source 90.

The printing mechanism control The printing magnet I00 has one end of its coil connected by a conductor IM to the other eement 95 of the master switch, and the other end of its coil connected by conductors I62, I09 to one element I04 of normally open switches I04, I06 insulated from, and held open by, said type carriers when in unactuated position. Each switch has the other element I05 grounded as at I06, whereby when any type carrier has been actuated and the

master switch

95, 96 has been closed, current may pass through the printing magnet I00.

A pivoted printing armature I01 (Figs. 2 and 15) attracted by the printing magnet I00 carries arms I09 carrying a universal rod I09 engaging under the rear edge of the hammers 0, whereby printing is effected when the printing magnet is energized.

The printer housing The receiver housing 24 has thereon a top plate H5 (Fig. 1) having a large opening II6 extending to its rear end beneath the rear of which is disposed a transverse shaft II'I (Fig. 3) in brackets carried by the receiver frame. A pivoted elongated printer carrying plate II9 normaly horizontally disposed longitudinally of the housing is provided at its rear corners with downturned perforated ears I received on said shaft. A casing or printer housing secured over said pivoted plate between the forward and rear uprights l2i, I22, has an open rear part and a rearwardly upwardly inclined record exposing face I28.

The Printer A printing shaft I25 passed through the forward upright Iii and the side walls of the casing carries the segmental hammers H0, III loosely pivoted on the'printing shaft, the hammers IIO being respectively disposed over

type carriers

69, 69, i0, whilethe hammers III are disposed over type of a printing time clock indicated by dotted lines I21 of Fig, 5, to print the time and date as shown at I29 (Figf12), on the paper I80. The forward part of each hammer is provided with a downwardy faced striking head I29 adapted to strike the paper I30 (Fig. 3) against the ink ribbon III. The front end portion has a cut-out lightening the front end. so that the heavier rear end normally raises the striking head, to the position of Fig. 3.

The printing magnet Hi0 iscarried in a frame 23d mounted longitudinally on said plate iii; to the rear of the hammers, to which frame the armature I01 is pivoted at its upper end to be attracted by the rear end of the magnet, whereby when arirature is attracted the rod rises and striking heads I29 are thrown against the ribbon and the rebound springs I35. The weight of the arms I08 and rod' I09 acting on the curved wires W0 stuck in the lower part of rear ends of the hammers helps to restore the hammers.

Paper feed switch A switch actuating arm Mil carried by the armature E01 above the magnet engages under the spring paper feed switch I4I, I42 when said printing armature is attracted, said switch having one element 542 electrically connected to said charged line at, and the other element connected by a conductor I44 to a paper feed mechanism I45 (Fig. 15).

The paper feed mechanism The paper feed mechanism serves for feeding the paper I30 and includes paper feed actuating magnets I55 having one end of their coils grounded as at I46, whereby when the printing has been effected, paper is fed for the next printing. This mechanism will now be described in detail.

A transverse stationary electromagnet I48 is disposed between said rear uprights or (Fig. 2) brackets I22 and provided at its ends with elongated horizontal pole pieces I49 transverse to the magnet. Bearing pins I50 passed through said brackets are secured fast to the brackets and the magnet core, whereby the electromagnet is held stationary.

A normally vertical rocking frame I52 of non magnetic material has end members I53 carried by said pins I50 between the brackets and electromagnet, and carries movable magnets I55 secured fast to and within the frame on both sides of, and parallel to the stationary magnet I48. Each magnet I55 is provided with a pole piece I56 (Fig. 3), each turned in the same circumferential direction relative to the axes of said pins and adapted to be received in an adjacent recess I51 in the pole piece I49.

Said magnets I48, I55 are interposed in circuit with the feed switch I4I, I42 and so wound that when the current flows, unlike poles are adjacent and the upper side of the frame is oscillated backwardly (leftwardly in Fig. 3) away from the hammers against the action of the spring I58.

Clamping armatures I60 (Figs. 3b and 4). adapted to be attracted by pole pieces I56 to clamp the paper I30, are loosely disposed longitudinally of the outer faces of the respective horizontal members I6I of said frame, and each provided at each end with an inwardly and outwardly turned end I62 received in slots I63 (Fig. 2) in the ends of the end members I53.

Retaining pieces I64 secured on the end frame members I53 and hooked over the ends I62, loosely hold the armatures in place.

The paper I30 passes from a supply roll I61 within the rear of the housing .24. Thence it is passed, over a guide roller IE8 at the rear of the pivoted plate, between the lower clamping armature I60 and the frame I52, under the plate I I8, over the type of the type carriers, around front end of the plate over the inclined face of the housing and thence between the upper clamping armature I60 and the frame I52.

The paper detent W hen said clamping armatures clamp the paper to the frame and the magnets I48, I55 are energized, the frame is rotated backwardly, thereby to feed the paper a line space, thereby to expose the printed matter, and to push the paper rearwardly under the detent means shown in Figs. 1, 13 and i i.

Ehis means is contained in a transverse detent cove. '30 mounted on the rear end of the casing and provided with lower front and rear openings ll'i, I12 through which the paper passes.

A shaft I13 rotatably mounted in the cover carries detent plates 15 radially mounted fast on the shaft and slightly rearwardly inclined into engagement with the paper.

A similar plate (not shown) is mounted near the other end of said shaft.

A spiral spring 18 around the shaft and se cured to the shaft and cover, tends to move the bottom edge of the detent plates backwardly into clamping engagement with the paper, thereby to hold the paper against retrograde movement when the magnets are deenergized, the clamping armatures released and the frame restored under the action of the spring 558.

The reset switch The

switch

48, 49, 50, 5| (Figs. 3 and 15) is actuated by the engagement, with the element 49, of an insulating projection E carried by said feed mechanism frame when rocked. Said switch comprises a relatively stationary impulse element 48 (Fig. 15) connected to the impulse line, a relatively stationary charged element 5I connected through the charged line 32 to the ungrounded terminal, a movable element 49 normally engaging the impulse element and connected to the selector relay magnet 41, and movable to normally disengaged reset element 50.

Said

movable elements

49 and 50 are movable by the action of the projection I80 to cause

movable elements

49 and 50 to engage with each other and to both be electrically connected with said charged element SI and the charged line 32.

The reset means The reset magnet Hi2 (Figs. 6 and 15) is carried by the frame 8'2 and has one end of its coil grounded as at I83 and its other end connected by a conductor I84 to the normally disengaged element 50 of said switch.

An armature I85 pivoted to the frame 82 and attracted by the reset magnet whenever the rocking frame I52 is rocked, carries an arm I81 which engages a universal bar I carried by a pair of arms ISI fast on a shaft I92 partially rotatable in the brackets 81 on the frame 65. When this bar is depressed it releases all of the detent pawls 64 and 88, the

selector magnets

41, 55 being at the same time energized to withdraw the relay pawl 60 from the selector ratchet, whereby the selector arm 43 and type carriers 68, 89, 10 are restored to normal position under the action respectively of the

springs

44 and 90.

The action of the magnet I82 and shaft I92 also brings about the ribbon feed as will now be explained.

The ribbon feed Take-up and supply ribbon spools 19:, m (Fig. 3) and guide rollers I95, I86 (Fig. 3) guide the inking ribbon l3I between the type and striking heads I29. A ratchet I91 on the take-up spool is engaged by a pawl I90 (Fig. 6) carried on a rocking arm I99 forming acontinuation of one of the arms I9I carrying the universal bar I90. Said pawl engages and drives the ribbon feed ratchet I91 for feeding the ribbon once for each resetting.

The fire alarm A fire alarm actuatingprojection or pin 200 (Figs. '7 and 15) is so positioned on the type carrier 60, that it will engage a projection "I on a normally

open fire switch

202, 203 positioned to be closed by said projection only when the highest digit carrier is set to print the type I6 which is at the 3" position between 2 and 4. This type prints F" as shown at 206 (Fig. 12). The pin 200 is insulated from the carrier.

The

switch

202, 203 is connected in series with a switch 0, 2 closed by the printing armature whenattracted and having 'one element 2I0 connected by conductor 32 to said ungrounded terminal and the other element 2II connected by conductors 2I2, 2I3 and switch 2, 2I5, to one element of the fire switch. The other element 204 of the fire switch is connected by conductor 2" to one end of the magnet coil 2I0 of a drop annunclator having its other end grounded as at 2I9.

The drop 220 of the annunciator constitutes a part of a fire alarm switch 220, 22I, whereby, when the F" is set up on the carrier 60 and the printing takes place, the current passes through the magnet 2|8, the drop falls and a fire alarm 222 connected in circuit with the switch 220, 22I is sounded.

A cut out switch 2, 2I5 is interposed in the conductor 2I2, 2I3 between the fire switch and the normally open switch 2I0, 2H and opened by said reset magnet, to prevent the sounding of the fire alarm by the closure of the

switch

203, 204 during any resetting of the carrier 66, as is necessary to prevent the alarm in normal operation.

The annunciator may be situated any suitable distance from the receiver, as indicated by the dot-and-dash line of Fig. 15.

Testing switch Some time during repairs, cleaning or ribbon replacement, the type carriers might be left in other than the unactuated position and cause an incorrect printing. To avoid this, and for general testing, a testing switch is provided. Testing switch 225 comprises a movable element 226 connected by the conductor 32 to said ungrounded terminal, and has separate stationary elements 225', 225", the element 225' being connected by conductor 20 to the master magnet 93, the other fixed elements being respectively connected by conductors 221, I5 to the stepping magnets II, I2, I3 whereby a momentary closure of the testing switch by pressure on the button 224 moves the, type carriers one space, and causes subsequent printing, paper feed and resetting to correct normal position so that a subsequent signal will be correctly printed.

Signal retaining means Parts 226, 229 (Fig. 15) of the frame in the housing 24 carry an upwardly spring raised means such as the U-member 230 (Fig. 15) adapted to hold raised the master armature 96, when the casing is raised from printing position (as in the dotted lines of Fig. 1), thereby to delay the printing until the casing has been restored to normal position. This prevents the resetting the carriers and loss of a set-up signal, before the signal is printed as when the casing I23 is raised when 5 threading paper from a new roll to the position of the dotted line I30 of Fig. 3.

Normal operation The operation of the receiver will be under- 10 stood and need now be only briefly summarized as follows:

The code signal wheel 20 is shown, by way of example, as having three groups of teeth having respectively 2, 3 and 2 teeth to send the number 232. The operation of sending this number will be described by way of example.

The watchman or other person at the subscribers or othertransmit'ting station sends the signal in the ordinary way, causing uniform rotation of the code-signal wheel 20 (Fig. 15) causing intermittent closing of the

switch

25, 26, causing two normal code signal impulses in the impulse line 29, conductor 4|, highest digit contact and the stepping magnet II, the circuit being com- 25 pleted through the ground I4, the ground 3|, battery 30 and conductor 32 to the

switch

25, 26.

The magnet II receives two impulses equal to the numeral value of the first digit, and the pawl I9 moves the type carrier the same number of 30 spaces and places, under the hammer strikinghead I29, the corresponding type, in this case I6 to print 2 as shown on the code-signal wheel 20,

On the first of these two impulses, the master magnet 93 is energized, opening the

switch

95, 96; and also the slow release magnet 41 is energized, closing

switch

45, 46, energizing the magnet 55, which attracts the armature 59 and remains energized between said two impulses, but releases the armature at the interval of space 23; whereupon the spring 59 acts to cause the arm 6I and pawl 60 to shift the brush to the contact 36. This shift takes place before the first impulse of the second digit group is received, so that this first impulse passes through the contact 36 and conductor 15 to the second digit setting magnet I2. The three impulses of the second digit group then set the carrier 69 to print 3.

In like manner, the third and last digit 2" is set up on the carrier I0; and as each digit type is set up, a switch I04, I05 is thereby closed.

During the intervals between digit groups, the master magnet 93 remained energized, and the

switch

95, 96 remained open; but after the'whole number 232 has beensent, the impulses cease, and the master magnet becomes deenergized, permitting the

master switch

95, 96 to close, thus allowing current to fiow from the source 30, through conductor 32, switch 95, 06, conductor IOI, printing magnet I00, switches I04, I05 (which were closed by the type-setting) to the ground This causes the armature I01 to throw the hammer striking heads I29 (Fig. 3) against the paper to cause printing; and at the same time the movement of the armature closes the switch I4I, I42 to cause current to pass through the charged conductor 32, the switch I4I, I42 conductor I44, magnets I40, I55, to the ground I46.

This causes the rearward rocking 0f the frame I52 and the feeding of the paper a line space.

This rocking of the frame I52 causes the opening of the switch 48, 49 and the simultaneous closing of the

switch elements

49, 50, 5| thereby to connect, with the charged line 32, the relay 75 magnet 47 and the reset magnets I82, thereby to energize the reset magnet and release pawls 64 and 86, and retract the armature 58 and pawl 60, to permit the restoration to initial position of the selector arm 43 and the type carriers, under the action of the

respective springs

44 and 90.

This restoration opens the switches I04, I05, deenergizes the printing magnet, opens switches I4I, I42, deenergizes and restores the paper feed magnets, separates switch

elements

49, 50, and closes the switch 48, 49, preparing the apparatus for the next signal.

Operation of the fire alarm This printing receiver is designed for use in well known systems in which fire calls are sent in by transmitters repeating the station number five times followed each time (after a pause long enough to accomplish printing, paper feed and resetting) by a fire-signal group consisting of a normal dot, a normal space, a normal dash, a normal space and a normal dot. This is the Morse letter F" and is now customarily used to signal a fire. This code signal will be received after the above mentioned printing and paper feed and will cause the energization of the master magnet, three impulses of the stepping magnet TI (Fig. 15), three steps of the carrier IO-to position to print F, and the closure of the

fire switch

203, 204. The impulses will then cease, the master magnet will release and permit the switch 95-, 96 to close, causing operation of the printing mechanism and printing on the line below the printing of the station number, at the same time causing the closure of the switch 2I0, 2. Current will then flow through conductor 32, switch 2l0, 2H, conductor 2I2, switch H4, H5, conductor 2I3,

switch

203, 204, conductor 2I'I, magnet coil 2! and ground 2I9. This will cause the drop 220 to drop, closing the switch 220, 22I and the alarm circuit (not shown) ringing a suitably located fire alarm.

After the printing and the alarm signal, paper feed and subsequent energization of the resetting magnet I82 take place as previously explained. This energization opens the switch H4, H5, preventing any current in the conductor 2|! during normal operation and resetting, when no alarm is desired.

Assuming a transmitter box numbered 4| is operated only one round, the F signal would not appear after the round, and the carrier wheel 68 would make four steps and in passing close the

switch

203, 204, but no current would flow through the annunciator, as its battery circuit is open at the switch 2I0, 2| I.

Since the number of transmitters which can operate on a single line-circuit is limited to a number much smaller than the type wheels can accommodate, it is convenient to omit the use of "3 as the first numeral in box numbers, thus reserving the F" position on the type carrier 68 for the fire alarm. However if a transmitter giving the signal number 343 is operated for fire, the transmitter number would be printed F 43 and the time as at 206 of Fig. 12.

If box 321 is pulled for fire, the signal would come in F 21 Time, after which the printer would go through its regular cycle, feed the paper ahead one line space, so that when the later dot-dashdot fire signal F came in, it would be as a separate signal and would appear as F and the time, On the line below the box number. In

this manner the system avoids confusion, since a fire" signal will always be on a separate line.

Operation of the testing switch The function of the testing switch 225 is to enable the operator to check his time on the clock I21, and to check the operation of the type wheels. By pushing the button 224 once the three type wheels will be advanced one step and when the button is released the

master relay switch

95, 90 will close and the printer will then function throughout its entire cycle, and if the type segments have been correctly set III and the time will appear on the tape. By pressing the button twice in rapid succession 222 and the time will appear.

Also the selector brush 40 and the type wheels may get out of step through carelessness of the operator in setting the time-stamp wheels or other parts of the mechanism. This condition can be corrected by pushing the test button or by manually operating the

relay switch

25, 26. Either operation will cause battery current to flow through the selector contact on which the brush rests and the associated stepping magnet will thereby close its switch I04, I05. Of course, the master relay will also have been operated and when it is released, battery current will then flow through the print magnet and switch I04, I05 to ground; and the machine will then function throughout its cycle.

If the operator does not notice that the selector brush 40 is oil the normal position, the first signal that comes in will be misprinted but the mechanisms will all be restored to normal, following the operation and release of the master relay.

As indicated in Fig. 15, the shift of the im pulse effect from one type carrier to the next is accomplished by shifting the path of electric impulses, by means of the brush 40, rather than by employing the arm 43 to shift a pawl 19 from one ratchet 80 to the next; but it is clear that the invention is not thus limited. Thus the selector may be as shown in Fig. 16, in which figure is shown a link 40 moved an increment, by the arm 43, each time the magnet 55 is deenergized, to move from one ratchet wheel 80 to the next the single hook-pawl I9 pivoted to the free end of the single armature I8 attracted by the single stepping magnet II connected between the conductor 4I and ground 14. When the magnet II receives its impulses the hook-pawl, 19' moves the associated type wheel in an obvious manner.

Also in practice, it is found that during ribbon changing it is easy to read the type when held from printing by the raised casing I23 and pin 230. Thus the type carriers are really visual indicators and could be made useful as such without the use of a printing means with or without reversing the type; so the invention is not limited to a printing device. If a signal, especially a fire signal, should come in during. ribbon-changing, the operator could easily read the signal directly from the type without waiting to finish threading the ribbon.

We claim as our invention:

1. In combination, means for supplying one or more signal impulses; type carriers; setting means actuated by the impulses to set one or more of the carriers a printing meansheld against operation by said impulses during and for a while after their occurrence, and released for operation irrespective of the number of digits to be printed by a predetermined length of period of absence of said impulses, as soon as and whenever said predetermined length of period is completed.

2. In combinatiori meansfor supp lying spaced groups of normally.spaced-impulses; ltypecarriers; settingmeans actuated bygthe impulses to set: the carriers; a selector means ..held againstoperation by the normally, spaced impulses,' =and-, releasedwior loperationq-on' the absencapf'impulses during the intervals between groups,; -to-- shift thew operation f::= t hej setting imeansifrom one carr-iertothe next;-.and:a-n impression means-' held against operation;;by-rsaid-s;groups during the :interva-ls between-imnulses: -a-nd:;-groups- :and released fo r-,;op.eration: only by continued-absence I of said i-mpulses longer than saidintervals.

3.- 'In combination, an impulse line;- meam for supply-ingwto-said line,--groups.oi impulses, with ionger= spacing; intervals between. groups than within 'thegroups;--a :-digit.selector comprising,

at leastthree contacts and a single brush suctrically connected to the impulse line; numeralcessively-engageable with the contacts and electypecarrierscorresponding to said ccntactsg az stepping electromagnet for each carrier, electrically.. connected to .-the icorresponding selector; contactymeans actuated byeachstepping -magnet to move the associated:typecarrienone num;

berhigher on each impulse; a slow-releaserelay electromagnet connected to the-impulse lineand adapted. to remain'energizedbetweendmpulses but not from one group to the next; .meanscontrolled-"by said-magnet tomovesaid brush=one;.-

contact when the magnet; becomes deenergized; and impression riers.

means-associated with the car -r 4-. Incombination, means--for= supplyingaoneg or more signal impulses;- type carriers;iaipluralw ityoi .-setting--means actuated 'by rth8- impulses to set the carriersrespectively; impression meansys held against operationbysaid signal impulses and released forpperation whenever .and as soon 1 as a predeterminedlength period ofabsence ofa impulses is completed-irrespective of the number of digits to be printed 5. In'combinatiomameans for supplyingspaced groups-of normallyspaced impulses}. type -car.

riers; stepping means actuated by the impulses to set the carriers; a slow release selectonmeans held against operation by the normally vspaced impulsesand released for operation-during the intervals betweengroups,- to shift the operation of the setting meansfrom one-carrier--.to the. next;'-impression meansheld against operation by said groups during the intervals between impulses and groups and released for operation only by a continued absence of said-impulses longer than-said -intervals, irrespective-ofvthex numberof digitsto be printed.

6; In combination, an impulse line; means-for"- supplylng thereto groups of normally spaced im-.,-

pulses with spacing intervals between groups;

type carriers; stepping means including stepping magnets actuated by the impulsesito set the associated type carrier; a slow release magnet connected to said line and adapted to remain enerv master magnetconnected to the impulse line. and adapted to-hold-lits magnetism during said.

intervals;---impression means; means for operating the impression means actuated by thecooperation .of the master magnet when deenergized and a type carrier when actuated.

7. Ar. apparatus as in claim 6 comprising an alarm de 8. ln combination an impulseiine; meansior supplying theretoeoneaon more signal impulses; a type carrier; stepping means connected to the impulses-line and actuated by the-impulses to set 'theg'parrier-" a='a slo.w-1; release .mastermagnet connectedz-tor theziimpulseline and adapted to hold: itssa magnetism-v;during and between im set the associated carrier; a-slow releasemaster magnet connectedtogthe impulseline and adapted-to' hold its :magnetism; during-and between impulses and;.-to= becomeideenergized a while after the .impulsesg-have:ceasedzdmpression means .held

against-operation: rbyw said master magnet, and.

set in operation by the deenergization of said mastera.magnet.-=

10:In combination;

.an impulse line; means for supplying=thereto-one -or-=more signal .impulses; .-=a;:typecarrier; setting means connected-- totthe impulselineand-actuated-by the impulses to 'set the carrierz; a'-slow-'r elease master-magnet, connected toetheimpulsexline and adapted to. hold :its 'm'agnetism-duringand between impulses and to-become deenergized a while after the impuiseshave:rceasedwazrelay switch held .open by sa-id master;- magnet; impression means .in circuit with= said switch-'and -movable into and from cooperation with the carrier and operated on theclosure; of.-the switch; a resetmeans for said carrierset in operation by the impression means after the printing; and;' means for. automatically disabling the reset.-means.when the impression means is out ofcooperation with the carrier.

11. A mechanism'comprising. an elongated casing; vdownwardly :pointing hammers in the.cas ing;--a type carrier =under each'hammer; a transverse stationary electromagnet in the casing and provided atdts ends with elongated horizontal pole. pieces transverseto the magnet; a normally vertical-.-rocking;= frame -of non-magnetic materiall'ha-ving-end members intermediately pivoted at the respective ends of said electromagnet;-

movable magnets fast on the frame on opposite sides ofrthestationarymagnet, and each having a pole piece; all the pole pieces being turned in the same circumferential direction relative to the. rocking axis;- clamping armatures loosely disposedlongitudinally-of-the. outer faces of the horizontal' frame members and attracted by the movablemagnets .to clamp. against thev frame; means to .supply and guide paper between the lower clampingl armature and the frame, under thecasing, tbetweengthe hammersand type, over thelcasing, andthence between the upper clamping armature and the frame.

12. A paper feed: mechanism comprising an electromagnet having pole pieces; a rocking frame; a movable magnet on the frame and ion-by the joint operation of. thefiimpressionz means-and;one..ot.;saidsaid signals; selector oted at the respective ends ofsaid electrom'agnet; movable magnets'o'n the frame and each having poles attracted by said pole pieces in a direction to rock the frame; clamping armatures loosely disposed longitudinally of the outer faces of the frame and attracted by the movable magnet to clamp paper against the frame; and means to supply and guide paper between one clamping armature and the frame, to the printing means, and thence between the other clamping armature and the frame.

14. In combination, means for supplying one or more electric signal impulses; a type carrier; stepping means actuated by the impulses to set the carrier; a slow release magnet separate from the stepping means adapted to be connected to the impulse means and inherently adapted to hold its magnetism during and between impulses and of itself to become deenergized a while after the impulses have ceased; and impression means set in operation by the deenergization of said magnet.

15. In combination, means for supplying spaced signals; a plurality of exhibiting means; setting means including quick release magnets actuated by the signals to set the exhibiting means; a selector magnet magnetized by said signals, and maintaining its magnetization at all times during said signals, and demagnetizing by the absence of signaling between signals; and selector means held against operation by said magnet when magnetized and released by said magnet when demagnetized between said signals, to cause the setting means to select the exhibiting means to be operated.

16. In combination, means for supplying spaced signals; a plurality of exhibiting means; setting means actuated by the signals to set the exhibiting means; a selector magnet magnetized by said signals; means associated with said magnet for maintaining the magnetization of said magnet at all times during signaling and allowing the demagnetization of the magnet between means held against operation' by said magnet when magnetized during signaling and released by said magnet when demagnetized between said signals, to cause the setting means to select the exhibiting means to be operated.

17. In combination, impulse means for supplying one or more signal impulses; type carriers; a plurality of stepping magnets associated with the carriers respectively and each adapted to be actuated by impulses to set the associated carrier; shifting means for successively connecting said magnets to the impulse means; and testing means for at will energizing the stepping magnets, independently of the shifting means.

18. In combination, impulse means for supplying one or more signal impulses; type carriers; a plurality of stepping means associated with the carriers respectively and each adapted to be actuated by impulses to set the associated carriers; means for successively connecting said stepping means to the impulse means; impression means; an actuating means connected to the impulse means and adapted to be set in operation by said impulses and to actuate said impression means only after said impulses have ceased; and testing means for at will simultaneously energizing the actuating means and. stepping means.

19. In combination, impulse means for supplying one or more signal impulses; type carriers; a plurality of stepping means associated with the carriers respectively and each comprising a magnet adapted to be actuated by impulses to set the associated carrier; shifting means for successively connecting said magnets to the impulse means; impression means; a slow magnet connected to the impulse means and adapted to actuate said impression means only after said impulses have ceased; a reset means actuated by the impression means after printing; and testing means for at will with a single manual movement simultaneously energizing the slow and stepping magnets, with a single impulse, independently of the shifting means, thereby simultaneously effecting the resetting and testing with economy of time and movement.

20. In combination, an impulse means for supplying one or more signal impulses; type carriers; stepping means adapted to be successively connected to the impulse line and actuated by the impulses to set the carriers; impression means adapted to be energized by one more of said impulses to effect printing only after the impulses have ceased; and testing means for at will supplying an impulse simultaneously to the stepping means and impression means.

21. In combination, an impulse supply means for supplying one or more signal impulses; type carriers; stepping means associated with the carriers respectively and each comprising a stepping magnet connected for connecting to the impulse means and actuated by one or more impulses to set the carrier; impression means; a slow magnet connected to the impulse and adapted to actuate said impression means only after said impulses have ceased; and testing means for at will simultaneously energizing the slow and stepping magnets.

22. A testing means for testing a signal receiver comprising a source of current, impulse means connected to said source for supplying one or more signal impulses, type carrier's, a plurality of stepping'means associated with the carriers respectively and each comprising a magnet adapted to be actuated by impulses to set the associated carrier, means for successively connecting said magnets to the impulse means, impression means, and a slow magnet connected to the impulse means and adapted to actuate said impression means only after-said impulses have ceased said testing means comprising a switch comprising a movable conducting element and a plurality of fixed contacts simultaneously engageable thereby; a conductor connecting the movable element to said source; and conductors connecting said fixed contacts to said magnets respectively.

23. In combination. a settable type carrier; means for setting said carrier step-by-step; a switch closed by said carrier when the carrier reaches a certain position of setting, the switch being in open position whenever the carrier fails to reach said position or goes beyond said position; impression means set in operation only after said carrier is set; and alarm means cooperating with said switch when closed and said impression means during printing, for operating an alarm, thereby to prevent alarm except during printing simultaneous with closed position of the switch and to permit operation of the alarm when said carrier is in switch closing position.

24. In combination, a settable type carrier; means for setting said carrier step-by-step; a switch closed by said carrier when the carrier reaches a certain position of setting, the switch being in open position whenever the carrier fails to reach said position or goes beyond said position; impression means set in operation only after said carrier is set; a switch closed by the impression means during printing; an alarm; and circuit means cooperating with both switches only when both are closed, for operating the alarm, thereby to operate the alarm during printing and to prevent operation of the alarm when said carrier passes said position during setting.

25. In combination, a settable type carrier; impression means; a support for holding the impression means in normal position in cooperative relation with the carrier and movable therefrom to abnormal position the type carrier being settable while the carrier is in said abnormal position; and means operated by the support when thus moved to abnormal position for preventing operation of the impression means when in abnormal position. v

26. In combination, a settable type carrier; impression means; a support for holding the impression means in normal position in cooperative relation with the carrier and movable therefrom to abnormal position; a reset means for the carrier; and means operated by the support when thus moved to abnormal position for preventing operation of the reset means.

27. In combination, a settable type carrier; impression means; a casing for holding the impression means in normal position in cooperative relation with the carrier and movable therefrom to abnormal position; a reset means for the carrier; and means operated by the casing when thus moved to abnormal position for disabling the impression means, and reset means.

28. In combination, a settable type carrier; impression means; a casing for holding the impression means in normal position in cooperative relation with the carrier and movable therefrom to abnormal position; a reset means for the car- 'rier; and means operated by the casing when thus moved to abnormal position for preventing the impression means, and reset means from opcrating, and for causing the operation of the impression means when the casing is restored to normal position, thereby preventing the resetting of the carrier and the loss of the record while the casing is in abnormal position.

29. In combination, a settable type carrier; impression means; a casing on which the impression means is mounted for holding the impression means in normal position in cooperative relation with the carrier and movable therefrom to abnormal position; a reset means for the carrier; paper feed and guide means carried by the casing for feeding and guiding paper between the impression means and type carrier when the casing is. in normal position, and removing the paper and guide means from above the type to expose the type and to expose the guide means for threading when the casing is moved to abnormal position; and means operated by the casing when thus moved to abnormal position for disabling the impression means and reset means to prevent loss of the record.

30. In combination, a housing; settable type carriers therein having upwardly disposed type; an elongated casing pivoted on the housing; hammers pivoted in the casing one over each type carrier, and normally raised from the type; a printing circuit including a printing magnet in said casing; an armature attracted by the magnet; means actuated by said armature and engageable with the hammers, whereby when the armature is attracted the hammers are thrown toward the type; pivot means pivotally supporting said casing for permitting raising said casing and said hammers and magnets therewith to expose the carriers; and means to hold said circuit open when the casing hammers and magnet are raised.

31. A recorder comprising a housing; settable carriers therein having upwardly facing type; an elongated casing pivoted at its rear end on the housing; hammers pivoted in the casing one for each type carrier and each having a striking part at the extreme free front end of the casingand over the associated carrier; means for guiding paper under the rear end of the casing, under said striking parts, upwardly over the front end and top face of the casing and past the rear thereof; and a rocking frame having clamping means at the upper and lower parts thereof for simultaneously drawing the paper back at the upper rear part of the casing and feeding it forward at the lower rear part of the casing; whereby when the paper is fed, the matter printed under the hammer is immediately exposed at said front end of the casing and remains exposed on the top face thereof as feeding continues.

32. A paper feed means for use with a recorder having a housing, settable carriers therein having upwardly facing type, an elongated casing pivoted at its rear end on the housing, and hammers pivoted in the casing one for each type carrier and each having a striking part at the extreme free front end of the casing and over the associated carrier said paper feed means comprising means for guiding paper under the rear end of the casing, under said striking parts, then upwardly over the front end and top face of the casing and past the rear thereof; and a rocking frame having clamping means at the upper and lower parts thereof for simultaneously drawing the paper back at the upper rear part of the casing and feeding it forward at the lower rear part of the casing; whereby when the paper is fed, the matter printed under the hammer is immediately exposed at said front end of the casing and remains exposed on the top face thereof as feeding continues.

33. In combination, a settable indicator; settable under abnormal condition; a reset means for the indicator operative after setting; and means operated when said condition takes place to prevent said reset means from resetting.

34. In combination, a record support changeable to inoperative condition; a settable member when the support is in said condition cooperating means cooperating with the member for recording settings of the member on the record; a reset means for the member automatically operative after said recording; and means automatically operated when said condition takes place to prevent said reset means from resetting.

35. In combination, a record support changeable to inoperative condition; a settable member when the support is in said condition cooperating means cooperating with the member fo recording settings of the member on the record and changeable to inoperative condition; a reset means for the member automatically operative after said recording; and. means operated when one of said conditions takes place to prevent the cooperating means and said reset means from operating.

36. In combination, a settable member; record support; cooperating means cooperating with the indicator for recording settings of the member on the record; a casing for said support and cooperating means movable to inoperative position; a reset means for the member automatically operative after said recording; and means operated, when said casing is moved to inoperative position, to prevent the cooperating means and said reset means from. operating 37.111 combination, a settahle type carrier; means for setting said type carrier to alarm-in dicating position and non-alarm indicating posi" tions; impression. means cooperating with the carrier and set in operationonly after said type carrier is set for recording indications by the type carrier; an alarm; and means cooperating with both said type carrier and impression means only when the type carrier is set to alarm posh tion and the impression means is operated, for op erating the alarm 38.111 combination, a settahle type carrier; means for setting said type carrier to alarm-indicating position and non alarm positions; a switch closed by said type carrier only when the type carrier is in alarm position; impression means cooperating with the carrier and set in operation only after said type carrier is set; a switch closed by said recorder when operated; an alarm; and means cooperating with both said switches only when both are closed for operating the alarm.

39. In combination, exhibiting means settable by signals to difierent pos tions and subject to accidental displacement; cooperating means adapted to cooperate automatically with the ex hibiti'ng means'when set to record indications thereof and then to restore the exhibiting means to normal; and a separate testing means for at will causing the cooperation of said cooperating means making a record indicating whether or not or how much. the exhibiting means had been displaced since the previous record, and then nor-- malizing the displaced exhibitingmcans.

40. In combination, exhibiting means successi 1y settable by signal impulses to different positions; said indicators being subject to accidental displacement; cooperating means adapted to be operated by signal impulses when the ex hibiting means are set to record indications thereof and then to restore the exhibiting means to normal; and a separate testing means for at will simultaneously supplying one impulse to each exhibiting means advancing the exhibiting means one step, and operating the recording means to make a test record and then restoring the indicators; the test record indicating whether or not or how much the exhibiting means had been dis-- placed since the previous record, the restoration after the test normalizing the displaced exhlbiting means.

41. In combination, impulse means for supplying one or more signal impulses; settable exhibiting means; a plurality of stepping means associated with the exhibiting means respectively and each adapted to be actuated by impulses to set the associated exhibiting means; means for successively connecting said stepping means to the impulse means; cooperating means adapted to cooperate with the exhibiting means to record indications thereof; a reset means operated by the cooperating means after recording; an actuating means connected to the impulse means and adapted to be set in operation by said impulses and. to actuate said. cooperating means only after said impulses have ceased; and a separate testing means for at will simultaneously supplying one impulse to the cooperating means and the stepping means.

CLARENCE C. JOHNSON. RICHARD M. HOPKINS. RICHARD F. SPAMER.