CH105274A - Apparatus for recording indications represented by perforations of indication carrier cards for statistical purposes. - Google Patents

Description

  

  Apparatus for recording indications represented by perforations of indication carrier cards for statistical purposes. The present invention relates to an apparatus for recording indications represented by perforations of indication carrier cards for statistical purposes.



  This apparatus comprises, on the one hand, a main section containing a set of reading pins controlled by the cards whose indications are to be recorded and a selector mechanism arranged to obey these pins so as to select adjustment members. with movements of greater or lesser amplitudes for recording and printing the corresponding indications on the cards and, on the other hand, two secondary sections, one provided with a recording mechanism individual for recording said indications depending on the movements of the selected adjustment members and the other,

   provided with a mechanism enabling a successive selection of the recorders of the first secondary section with a view to listing their respective recordings. The accompanying drawing, given by way of example, shows one embodiment of the object of the invention, for use in the life insurance service to enable the recording of insurance premiums. quarterly maturity for example and an aggregation of these premiums.



  Fig. 1 is a transverse vertical section through the main section of the apparatus, where the cards are read by reading pins for the recording of insurance premiums marked therein by perforations; Fig. 2 is a transverse vertical section of the apparatus by one of the secondary sections, called the left-hand section, shown at the top of FIG. 3, where premium recorders are located; Fig. 3 is a plan of the main section and of this secondary section of the apparatus, the box-envelope thereof being removed;

    Fig. 4 is a section similar to that of fig: 2, taken approximately at 4-4 of fig. 3 and shown inverted; Fig. 5 is a side view of part of the second secondary section, called the right one, of the apparatus, the location of which is indicated in the lower part of FIG. 3; Fig. 6 represents a detail.



  The apparatus shown is intended to receive punched cards the perforations of which represent insurance premiums, these cards being supplied at one end of the apparatus to be brought successively to a main section where there are the means for translating the perforations of the cards by movements of recording organs ("reading" of cards), after which the cards thus "read are discharged from the other end of the apparatus. The perforations of the cards represent, by their different combinations, different insurance premiums to be recorded and added or added to.



  In the main section of the device there are feeler or reading pins D (fig. 3) arranged along the front face of the device and able to move lengthwise. These feeler pins are subjected to the action of springs 21 which tend to pull them forward, while a movable stop grid 22, provided with lips for hooking onto the shoulders of the pins, normally maintains the latter in inactive position, against the springs 21, until, by the movement of an oscillating shaft 28, when the device is brought into play, the stop grid 22 is moved forward to release or disengage the pins D.

   During this release, the pins D advance towards the card which has been brought in front of the set of pins, feel it in the sense that those of the pins which find a perforation in front of them, come fully forward, then that the others remain held back by the solid parts of the card, so as to establish a selection between the feeler pins, a selection which will result, as will be seen later, by an order of premium recorders. LTiie perforated plate 20 serves as a guide for the front ends of the feeler pins and at the same time as a support for the card to be read.

      The oscillating shaft 28 is actuated by a connecting rod 32 connected, by its opposite end, at 38, to an oscillating lever 33 controlled by a rotary cam 34. This is established to actuate the stop grid 22 in such a way that '' it allows the feeler pins to remain in the forward position for a period of time long enough to determine the operation of the parts which depend on their selection, before returning them again to their rear position for the next selection stroke on cree new card to read.



  The apparatus shown allowing the addition of insurance premiums indicated on the cards to be read, the feeler pins D serving for this purpose, may be called simply the addition pins to distinguish them from some of the feeler pins used to control a selector mechanism and which may be called "selector pins", as will be seen later. Each of the addition pins carries a stop 43 (fig.3) cooperating with an angled lever 42, the angled levers 42 being threaded one above the other on a shaft 43a.

    The inner end of each lever 42 engages with a pin 211, mounted at the end of a sliding plate 44; the forward movement of the addition pins through the perforations of the cards thus being transmitted to the corresponding plates 44 controlling a recording mechanism. Some of the D pins, the selector pins still under the control of the punched cards, are used to control the operative position of a selector mechanism intended to select recorders to record the indications corresponding to the addition pins, selected, transmitted by the corresponding plates 44, according to certain categories to be distinguished, such as age and place of residence, for example, of the insured.

   For this purpose, the selector pins are combined with two sets of levers 45, 46 journaled respectively on shafts 47, 48 which can be moved in directions parallel to the selector pins so as to bring one of the sets of levers 45, 46 in operative position and the other in inoperative position. In the position shown, it is the set of levers 45 which has been brought into the operative position in which the outer end of these levers engages with a pin 49 mounted on the corresponding selected pins,

   and the levers 46 are spaced from the pegs 50 provided on the corresponding selector pins, so that the advancement of the pegs 50 has no effect on them, while the advancement of the pegs 49 acts on the levers 45 to actuate the selector mechanism. The movement of the shafts 47, 48 is obtained with the aid of a sliding bar 51 which protrudes outside the apparatus, where it can be operated by hand. This bar is connected by an elbow lever 52 and a connecting rod 53 to the shaft 47 guided by an arm 54 pivoting at 55. The displacement of the shaft 48 is obtained by a connecting rod 56 connected to the free end of a arm 57 fixed on an oscillating shaft 58 carrying arms 59 connected to the shaft 48.

   By virtue of these interconnection means, the sliding bar 51 makes it possible to move the shafts 47, 48 respectively in opposite directions, to make it possible to put in the active position, with respect to the selector pins; es, either the set of levers 45 , or the set of levers 46, depending on whether one or the other of the selectors of the selector mechanism is to be made operative. The inner ends of the levers 45, 46 are always engaged with drive pins 60 provided on sliding plates 61 for controlling the selectors of said selector mechanism.



  The sliding plates 44, arranged in four horizontal rows of ten each, for example, corresponding to ten feeler pins of the four vertical rows of pins shown in FIG. 3, control the recorders in the main section of the apparatus by means of main oscillating sectors 153 (fig. 1), the oscillating movement of which is limited by one of the shoulders 1054 provided therein, striking the internal end an angled lever 155, the outer end of which is hooked onto a fixed stop 156 and is located in the path of pins 157 provided on the inner portions of the plates 44.

    When one of the plates 44 is moved to the left in fig. 1, its pin 157 acts on a lever arm of varying length, depending on the height position of the actuated plate, on the corresponding angled lever 155 to impart to it a greater or lesser oscillation stroke so as to bring its internal end in the path of one or the other of the shoulders 154 of the corresponding sector 153 and stop this sector in a determined angular position.

   The angled levers 155 are also capable of vertical movement, each being mounted on a sector 158 which is pivoted, like the sectors 153, on the central shaft 83 of the apparatus and which is provided with a shoulder 159 dis posed to engage with lateral projections 160 at the ends of two of the corresponding plates 44 when these are advanced, the movement of the plates 44 being controlled by locking slides 161 provided with <B> U <slots / B> 162 in which are engaged the pins 163 provided on the plates and whose length determines the travel of the latter, all in such a way that the plates 44 of a vertical row, for example, can determine for the corresponding sector 158,

   with the angled lever 155 which it carries, several different height positions such that the angled lever 155 determines, by its height adjustment and its angular adjustment, ten steps for the angular movement of the corresponding sector 153.



  A rod 85 which is used to return the sectors 153 to their starting position, is mounted on a triangular plate 84a fixed on the shaft 83. At the time when this resetting rod 85 is lowered to release the sectors 153, the plates 44 of each vertical row can be locked after their movement by means of the locking slide 161 arranged to lock combinations of plates either in a retracted position or in an advanced position and to release them for the movement of the plates, these sliders 161 being biased downward by springs 164 and being lifted by the engagement of a finger 16:

  3 on the plate 841, with the free end of a connecting rod 166 connected by a common elbow lever 167 to the slides 161.



  Each of the adjustment sectors 153, which are 20 in number, according to the number of the platens 44, 61, drives a print sector 168 carrying movable print characters 169, from 0 to 9, arranged to be fed. in the printing position relative to a printing hammer 170 and to the paper on the roller 171 in front of which the ink ribbon 172 extends, so that the different angular strokes of the sectors 153 bring the printing characters correspondents in the recording position, after which the hammer 170 is caused, by spring force, to act on the print character thus adjusted, this printing taking place as each card passes, as will be seen below.



  The adjustment sectors 153 and the print character sectors 168 which have just been described belong to the central main section of the apparatus, in which the control of the reading pins according to the perforations of the cards is obtained. as well as the recording by printing of these premiums. LTne of the aforementioned secondary sections of the latter comprises recording sectors controlled by the sectors 153 and the sectors 168 of the main section to cause the recording of the premiums, thanks to the arrangement of longitudinal coupling shafts arranged in four groups 173, 174, 175, 176.

   The movement of the sector 153 shown for example in FIG. 1 is communicated by a connecting rod 177 to a sector 178 fixed on it group shaft 173 and engaged by a spring 179 which tends to rotate the sector downwards. The various sectors 153 of the main section of the apparatus are linked in this way to the various trees of groups 173, 174.

   The shafts of groups 175,176 receive their movement from the print type sectors 168 which move upward while the sectors 153 move downward, so that the angular movements of the posterior groups of shafts 175. 176 are reversed compared to those of earlier groups of trees 173, 174.



  The adjustment sectors 153 of the main section of the apparatus, apart from their task of determining the adjustment of the corresponding sectors in said secondary section of the apparatus, which in turn actuate recorders, actuate themselves. same totals recorders <B> 1.80, 181, </B> whose uri is used to record the totals of all values shown by the individual recorders, which can be called "sub-totarix4 @, and to show these sub-totals, while the other is for recording inside the device,

   the sum of these various sub-totals or the "grand total". These totals recorders will be discussed further below.



  Said secondary section of the apparatus enclosing the bounty recorders is shown in cross section in FIG. 2. The shafts of groups 1 "r3, 17-1, 175, 176 which transmit the movement of sectors 153, <B> 168 </B> from the main section to the secondary section with recorders, are connected by arms 182 and 18: 3 connecting rods to the control rings of the recorders of which or will speak later.



  The recorders of this secondary section are arranged in a circular ring around the shaft 83, each recorder constituting a complete assembly with its cog and means of bringing into play, transfer and release which it comprises, the shafts of each recorder being journaled in end plates 184, a few of which are indicated in the lower part of said corironire (fig. 2); in the other parts of it, sections are taken according to different planes to show the different organs.

   The recorders are controlled by a series of different control rings shown in fig. 3. A first of these rings, that 185, is intended to control means for bringing the recorders into play; two others, 186, are used for the selection of the premium recorders and have selection notches around the periphery; others, 187, are used to control the recorders selected and put into play;

   a fourth, <B> 188, </B> is intended to bring the recorders out of engagement with the control rings after recording, and a last, 189, serves,. the return of certain parts to their starting position. The number and arrangement of these different rings are shown in plan in fig. 3 and each of these is mounted loose on radial arms that it comprises, on the shaft 83.



  The ring 185 has, on one of these arms, a side lug 190 and comprises, connected to another, a tension spring 191 to 'bring it back to the starting position shown, evening movement. return being limited by a stop 192 on another of its arms coming into contact with a fixed transverse shaft 193. The spring 191 maintains the ring 185 in its starting position and the means for bringing the various recorders into play out of engagement until the end of the swing stroke of the shaft 83.

   At the end of this stroke, the ear 190 is struck by a pin 194 provided at the end of the arm fixed to the shaft 83 and drives the ring 185 to make it free from the pins for bringing the recorders into play. and allow one or the other of the recorders to come into engagement, by this pin; with one of the notches of the selection rings 186, depending on the position of the latter, thereby bringing the selected recorder inwards in a suitable position to be able to be actuated by the control rings 187, the control rings selection 186 being actuated directly by the connecting rods 183. The control rings 187 are actuated in a similar manner directly by the corresponding connecting rods 183.

   The release ring 188 of the recorders is actuated by a shaft 1741, independent of the transmitting shafts of the aforementioned groups, by means of a positive reversal device shown in FIG. 4 and described later. The control ring 189 for returning certain parts to their rest position has an ear <B> 195 </B> on one of its arms and is caused to turn by means of a spring 196 which it causes pin 194 to follow as shaft 83 rotates.

   This retaining ring 189 has a peripheral edge in the form of scallops and by rotating forward the recesses in the peripheral edge allow rollers provided at the ends of the return arm 197 to oscillate inwardly for a purpose which. will be described later.



  The shaft 193 passes through the various rings and is provided with a hook 198. During a totalizing operation, in which case the shaft 83 receives two complete strokes forwards and backwards for each recording in totalizers, the hook 198 is engaged with the notch 199 provided on the recorder control rings, 1.87, at the first stroke, so as to prevent the rings from going back to a minus 1 position during the totalizing operation.



  In order to carry over from one decimal to the highest decimal, the addition wheels of the recorders except that corresponding to the highest decimal, are provided on their side faces with transfer pins which, in passing from 9 to 0, hit ears provided on angled levers 200.

    Each recorder has its group of transfer levers 200 freely mounted on a shaft 201 and each transfer lever has a shank 202 terminating in a hook, these hooks normally being beyond the reach of pins 203 provided on the control rings 187, but each of these hooks being opposite the pin 203 of the control ring corresponding to the next higher decimal.

   When any one of the recorders is selected and inwardly engaged with its control rings, the corresponding hooks 202 also move inward in the path of the pins 203, to then serve to stop movement. back of the control rings to their zero position.

   When any one of the register's addition wheels which is in the engaged position changes from 9 to 0, the corresponding transfer lever 200 will be operated by the respective transfer pin, and the corresponding hook 202 will be actuated. cleared from the path of the pin 203 corresponding to the next higher decimal wheel of the recorder, so that the control ring for the next higher decimal wheel moves <the uni no further in its movement in rear, which is its recording movement, that is to say that we then obtain the carry over.



       Each recorder has a set of addition wheels on a titi shaft 204 which is carried by triangular arms 205 wedged on a recorder carrier shaft 206.

   This one carries, fixed there, titi bent arm 207 and, insane rise, a control part 208 urged by a weak spiral spring (black represented) in the direction of the movement of the needles of a watch and having at its free end the engagement pin 209, which, at the right moment, is caused to press under the effect of said spring on the peripheries of the selection rings 186 so as to fall into one of the notches thereof,

   if the rings advance to a determined position corresponding to this recorder. The intermediate piece 210 is pivoted on the arm 207 and carries at its outer end a tab 211 which engages with a part of the control piece 208.

   Springs (not shown) tend to pull the various recorders inwardly into engagement with racks provided on the control rings 187 and to cause the arms 207 to carry inwardly, so that the intermediate piece 210 is always pulled out. inwards, but is however retained by the control part 208, unless the pin 209 thereof can fall into a notch of the selector rings. The control part 208 rotates by a sleeve on the shaft 206, which is rigidly connected to titi arm 212 (see the upper right part of fig. 2), which by means of a connecting rod 213 and a arm 214, can rotate a shaft 215.

    We see in the upper left part of fig. 2 that the shaft 215 carries small arms 216, one for each recorder wheel, and also slightly longer arms 217 whose free ends are normally in the paths of the outer ends of the transfer levers 200.

   Inward movement of the actuator 208 therefore acts through the arms 212, 21.1 and the shaft 215 to disengage the transfer levers 200 and allow them to rotate in the direction of the movement. clockwise under the action of res spells (not shown) so as to move the hooks 202 inwardly to their active positions in the path of the pins 203 and to bring their inner branch outward into the path of the carry pins on the various addition wheels, so that they can be operated as described above. Items 216 are requested, like those 208,

   by weak spiral springs on their shafts tending to rotate them in a hard clockwise direction.



  The selected recorder is brought into control by the rotational movement & shaft 206. This shaft carries an arm 218 (see the lower part (left pull of fig. 2), at the free end of which is rotated by a pawl <B> 2 </B> 19 having a shoulder which, when the arm 218 moves inwards, engages with firing) tenon provided on a stop blade 220 pivoted by one of its ends and having at its free end a notch for engagement with a pin provided on an outer projection of the arm 197.

    Each time a recorder is moved out of its operative position by the shaft 206 which is caused to rotate in the direction of clockwise movement, the arm 218 acting by the pawl 219 disengages the blade. stop 220 of the pin on the projection of the arm 197, allowing the latter to oscillate inwardly under the action of a spiral spring (not shown) acting on the shaft 201 carrying the arm 197 and bringing it -Here engaged with the return ring 189. The shaft 201 also carries, fixed therein, an arm 221 having at its free end a pin projecting, under the various hooks 202.

   The return ring 189 having advanced during the advance stroke of the shaft 83. the arm 197 has the ability to rotate or oscillate inwardly, causing the arm 221 to oscillate outward and returning to the normal position. any one of the transfer hooks 202 which could have been used in the previous operation of the apparatus. During the return stroke of the shaft 83, the arm 197 is again raised by the roller provided at its free end straddling the scalloped edge of the resetting ring 189 and the pin of the arm 221 is brought into the release position. pledge.

   The stopper blade 220 swings inwardly under the action of a spring (not shown to engage with the pin on the projection of the arm 197 and maintains the latter in the outward position until both next where that particular recorder is selected, by these means the entire mechanism of a recorder can be kept inoperative and substantially unactivated except when that recorder is to be put into operation.



  In each recorder, the arm 205 which carries one end of the adding wheel shaft 204, carries a roller 222 which straddles the inclined ramps of the release ring 188. As the ring 188 is advanced, the various recorders are released by it so that they can move inwards under the control of the selection organs.

   On the return stroke of the shaft 83, the release ring 185 acts on the recorder engagement spindle parts to put them into the release position, and at the end of the stroke, the ring 188 brings about the recorders themselves out of engagement with their actuating racks, that is to say that it puts out of play the recorder (s) which have previously been selected and put into play.



  The means for actuating the shaft 83 and its arm carrying the pin 194 are shown in FIG. 4, these means being arranged on the left side of the device, as shown in FIG. 3. The motor shaft 40 rotates continuously, by the action of an electric motor for example, and carries a crank arm 223 connected by a connecting rod 224 to an arm <B> 225 </B> fixed on one end of the shaft. 'shaft 226 so as to oscillate the latter. The shaft 83 carries an arm 227 which is connected to the end of the shaft 226 by a connecting rod in the form of a sector 228 and an arm 229, together forming a knee lever. A sector 230 is fixed on the end of the shaft 226, on which the arm 229 is mounted idle.

    During the first part of the oscillating movement of the shaft end 226, the shaft 83 is held stationary by the aforementioned toggle lever. At the end of this first part of the movement, the toggle lever is bent by the effect of a pin 231 which strikes the bottom of a slide made in a connecting rod 232, the upper end of which is articulated to the connecting rod 228 toggle lever. The continued movement of the shaft end 226. then causes an oscillating movement of the shaft 83. During the reverse oscillating movement of the sector 230, a lip 2301, provided at the sector 230, returns the arm 229 and the shaft 83 to the starting position.



  The movements of the shaft 1741, mentioned above are effected by means of a lever arm 233 indicated in dotted lines, which is fixed on the shaft end 226 and which carries at its free end a pivoting pawl 234 which can be s' engage alternately with pins 235, 236 provided on a three-arm lever 237 mounted on a pin 237a and locked thereon in any position to which it has been brought, by means of a friction spring 239,

   the pawl 234 rotating the three-arm lever 237 on its axis 237a. The third arm of this lever 237 is connected to the upper end of a movable coupling fork 238, the lower branches of which are provided with lateral notches arranged to engage alternately with one or the other of two pins. mounted at opposite ends of a three rocker 239a fixed to the shaft 174a.

       When the coupling fork 238 engages the pin at the right end of the balance 23911, the first and each subsequent odd-order forward oscillation stroke of shaft 83 will cause the shaft 174a will be caused to turn to the right under the action of the three-armed lever 237;

   while the second and each subsequent forward oscillation stroke of even order of shaft 83 causes left-hand rotational movement of shaft 1741, by the fact that pawl 234 will strike pin <B> 236 </B> which, by the preceding movement of the lever 237, has been brought into the path of travel of said pawl.

   When, as shown in the figure, fork 238 engages with the pin at the left end of balance 239, this operation will be reversed so that at odd-order forward oscillation strokes of the shaft 83 corresponds to a movement of the shaft 174a to the left and to the forward oscillating strokes of even order of the shaft 83 firing) movement of the shaft 174a to the right, in order to reverse the order of the movements of this in relation to the order of the control movements.

   The members located between the lever arm 233 and the shaft 1741, in this way constitute an inverting mechanism of sequences of movements for the latter which is, moreover, in principle not new.



  When we want to take the total of the recording in a recorder, we press a key 240 (fig. 1) until the transverse part of a notch 241 made in the key rod 242 comes out. face of a fixed peg 243, after which the spring 244 engages the key rod 242 on this peg to keep the key down. Lowering this key gives rise to various operations.



       An angled lever 245 connected to the button shank turns a shaft 246 to the left (fig. 1 and 4). This causes a change in position of the coupling fork 238 through the arm \ _ '47, the connecting rod 248, the arms 249 and "50 on the shaft 251 and through the connecting rod <B> 252 </ B > linked by title slide and spring connection to fork 238.

   so as to move the lower part of it to the right in order to bring it cry taken with the pin at the right end of the balance 23911, in order to reverse the direction of the oscillation movement of the tree 174 at night departure.



  The lowering of the key to total 2-10 and its rod 242 still produces (fig. 1) a forward movement of a connecting rod 253 which is connected, by its end, to a swinging arm 254 having at its upper end a transverse pin 255 which engages with the angled levers 155, to pull the inner end of these levers out of the way of their shoulder sectors 153, so that, as the pin 255 is common to the whole group of angled levers 155, we obtain a release of all the main sectors 153 of the apparatus,

   which are thus left free except as they are stopped respectively at the distances sui, which the various wheels of the recorder move cry turning back to the zero position, that is to say of the particular recorder which is engaged with its control rings and of which we want to take the total; the zero position of said wheels being determined by the meeting of their transfer pins with the transfer levers 200.



  Lowering the key to total 240 also serves to engage the printing hammer device. In fact, the movement of the button is also transmitted by the connecting rod 253 to a lever 256 and from there by a connecting rod 257 to a second connecting rod <B> 2.58,

  </B>, the rear end of which is connected to an arm 259 and as a connecting rod 260 which actuates a pawl for advancing to rotate the paper holder 171 carrying the paper on which the recording is to be printed . Lowering the key 240 causes the anterior ticked end of the connecting rod 258 to be raised to bring it into the path of a pin 261 mounted on the arm 841, carried by the shaft 83, so that, as as the shaft 83 rotates back and forth, it advances said advancing pawl by rrrr.

   The movement of the connecting rod 258 is transmitted by the arm 259 to the oscillating shaft 262 carrying the hammer return arm 263 provided with a rod 264 engaging with the front edges of different arms 265 which are mounted idle on the shaft 262 and pulled forward by springs 266. Each of the hammer arms 267 is mounted loose on shaft 262 and has a descending tail with a flange 268 engaging the front edge of the control arm 265. When shaft 262 is caused to rotate at the end of the forward stroke of shaft 83, return rod 264 is withdrawn.

   Thereafter, retaining pawls 269 are released from the arms 265, as will be seen, to allow movement of the hammer arms 267 for those sectors which have been operated. These means are known in the usual cash registers.

    The release of the pawls 269 is effected by means of a connecting rod 270, the upper end of which is connected by a notch and pin connection with the corresponding sector 153, the lower end of the connecting rod 270 being normally kept disengaged. a pin 271 by which it can actuate the pawl 269, being brought into engagement with this pin by a connecting rod 272 connected to the lever 256.

   With each pawl 269 is combined a spring lever 273 which keeps the pawl lowered in the disengaged position, when the corresponding character holder sector 168 is turned upwards, and continues to hold it in this position until said sector returns to its starting position and drives the upper arm of lever 273.



  When the total key is down and a particular recorder has been brought into engagement, with its control rings by the means described above, the total of that single recorder can be taken. When a large number of cards have passed through the device, the various recorders in the secondary section shown in fig. 2 will show the most varied values, and it is important to also provide in the apparatus a mechanism by which, by pressing the total key, it is possible to select and print successively in a list the totals of all the recorders, from way to get a list of all recorders.

   This mechanism for performing a successive selection of the recorders is shown in fig. 5; it does not work every time a card is brought to the device, but only comes into play after a large number of cards have passed through the device. On the shaft 83 is fixed an arm 275 carrying a pin 276 engaging with the edge of an arm 277 which is mounted loose on the shaft 83 and is pulled upwards by a spring 278, so that As the shaft oscillates, the arm 277 oscillates between two stop pins 270 and 280.

   The arm 277 carries a pawl 281 which engages a ratchet wheel 282 which is attached to a pair of snail discs 2.83, 284 located in adjacent planes and corresponding respectively to the units and tens of the records in the recorders. Of the group of trees 175 shown in fig. 1, the two upper ones have been indicated in FIG. 5. One of these shafts carries an arm 285 in cooperation with the units disc 283 and the other carries an arm 286 in cooperation with the tens disc 284.

   As these discs rotate together step by step, the arms 285, 286 will successively take different positions followed by the shafts of group 175 on which these arms are mounted, and the selection rings which are actuated by these shafts, so that the corresponding recorders will be successively selected for the listing of their respective recordings, attention being drawn to the fact that the main sectors 153 have been freed from 155 by lowering the key to total.



  Lowering the key to total 240 (fig. 1) activates, by shaft 246, certain parts of this mechanism to automatically select the recorders in succession, shaft 246 being extended to the mechanism of fig. . 5 and being shown in the lower left part of this figure. A system of levers 287, 288. 289 and 290 is arranged to rotate the shaft 193.

   It is this tree which extends through the secondary section with individual recorders shown in fig. 2, and which carries the latch of minus one, 198, fig. 2, and the movement of the parts is such that at the second full stroke of the shaft 83, the withdrawal of this latch occurs so as to allow full movement of the control rings 187.



  The shaft <B> 193 </B> also carries (fig. 5 <B>) </B> a hook 291 which keeps the ratchet arm 277 withdrawn so as to prevent its operation until the moment of lowering. of the total key, which releases the hook <B> 291. </B>



  It takes two years of movement of the hook wheel 282 to move the snail discs 283, 284 one step forward, the totalizing operation requiring two full strokes forward and backward on the shaft 83 for each total to be printed. The first stroke of the shaft 83 produces, during its portion of forward motion, the release of the transfer means of the various recorders, as usual, and selectively determines which recorder to actuate, its backward movement portion is translating into an empty movement of the control racks.

   During the forward movement portion of the second stroke of shaft 83, the control racks mesh with and take the total of the selected recorder, but the recorder selector mechanism will be stationary. This alternative movement and rest of the selector mechanism is achieved with the help of a device indicated as a whole at 292 in FIG. 5.



  When the operator lowers the key fully and turns the shaft 246, he releases this device by releasing the pawl 1 at the hub of the connecting rod 289. This pawl is kept free during the entire set of selective operations necessary to make the list of totals, with the total key being held down as described above. The arms 285 and 286 have the possibility of oscillating inwards only after the first, the third and following no movement of the snail discs, being kept outwardly away from the alternating pitch discs by means of 'a hook 2 which engages with pins 3 arranged on the two arms 285, 286 in the path of the hook 2.

   The hook 2 is rotated freely and is pulled down by a spring 4. It has a posterior extension carrying a pin 5 arranged to be engaged by a shoulder of a stop arm 6 which, in the position shown, prevents the hook. downward pivoting movement of hook 2.

   On the pivot of the hook 2 is also mounted a part with several arms 4a carrying a pin 7 arranged to engage under the hook 2 and which is connected by a connecting rod 8 to an arm 9 on the shaft 111 which extends to through the apparatus to the components shown in FIG. 4 and there carries an arm 21, supported on a carne 21, fixed on the motor shaft 40, so that at each revolution of the latter corresponding to each stroke of the shaft 83, the shaft 1a is caused to oscillate and with it the pin 7, so that, assuming the hook 2 to be free,

   it will be raised and immediately lowered to hold the arms 285, 286 for each step of movement of the apparatus. Means are provided, however, for alternately disengaging and recalling the stop arm 6 so as to keep the hook 2 raised to the first notch of each pair of ratchet wheel movement notches 282 and to allow it to lower. at the second notch of movement. These means comprise a pawl Sa on the oscillating piece 4a which carries the pin 7, the pawl 3a being alternately moved outside a pin 5a and allowed to enter between the pins 5a and 61, to engage with the pin. stop arm 6 and release hook 2.

   The movements of the pawl 31 are determined by a spring 7a which presses it inwardly and by a connecting rod 8a connected to the pawl by a notch and pin connection and also connected to a small lever 98 which is pivoted on the face. inside the lower part of the hook 2 and which is normally pressed outwards by a strong spring 10a or is pushed inwards by the engagement of its lower end with a pin 111, mounted on a fixed part of the 'apparatus.



  Assuming the parts in the position shown, the next lowering movement of the arm 9 and the pin 7 will cause an upward movement of the pawl 31, and the lower edge of the latter will slide on the fixed pin 5a, the spring 7a pressing the pawl 31 inwards by an amount corresponding to the play in its notch and pin connection with the connecting rod 811. From this dewlap, during a subsequent upward movement of the arm 9, causing a downward movement of the pawl 3a, the latter will be in a suitable position to pass between the pins 51,

      and 6a and will strike the stop arm 6 to release the shoulder thereof from the pin 5 and allow the hook 2 to swing downward as soon as the arm 9 swings down.



  The downward movement of the hook 2, the lower end of which moves outward away from the fixed pin 111, allows the powerful spring loa to move the connecting rod 8a outwards, the end interior of its notch being against the pin of the pawl 31, and leaving, as a result, play for a subsequent movement of the connecting rod and the pawl,

      movement which will take place as soon as the downward movement of the hook 2 becomes sufficient to lift the pawl 3a past the pin 511. After that, on the next raising movement of the hook, the pawl 31 will slide out of the pin 51, and the stop arm 6 will be pulled upwards by its spring to engage with the pin 5 and prevent the operation of the hook 2, thus leaving the arms 285, 286 free to work, without regard to the downward movement of the pin 7.



  The two total recorders 180, <B> 181, </B> of fig. 1 are carried by frames fixed on shafts 293, 294 respectively and are brought in or out of engagement by an oscillating movement of these shafts. The selector device for these two recorders comprises a sector 295 (fig. 6) having four notches at its periphery.

   and the shafts 293, 294 carry arms 296, 297 with pins at their free end, which, in the regular recording operation of the device, can fall, by spring action, into two of the notches of the sector 295 and bring both recorders into command for each run backwards so as to record the totals of all the individual recorders. The total key 240 is that which is ordinarily used for printing a list of totals of the individual recorders.



  Apart from the functions already indicated which are incumbent on it, it also controls, using means described below, the sector 295 for the engagement of the totals recorders. When it is desired to have the total of all the values presented at a given time by the individual recorders, a total called "subtotal" and the sum of this subtotal and previous subtotals, that is to say the "grand total", we will use a "grand total" key 298 connected directly to sector 295.

   When the total key 240 is down, it descends a sufficient distance to first advance sector 295 far enough that neither of the arms 296, 297 can find a notch in the sector and both recorders of totals are kept out of play during rostering by means of the mechanism described (fig. 5), after which, by releasing the key, totalization can occur when the games return. The connection of the total key 240 with the sector 295 is carried out according to fig. 6, by means of a hook 299 articulated at the lower end of the test rod 242 and hooking to a pin provided at the lower end of a connecting rod 300 connected to an arm of the sector 295.

   A bar 301 is arranged, when it moves back and forth, to hook onto a pin 302 of the hook 299 and remove the latter from the pin of the connecting rod 300, the connecting rod 301 sliding on bare pin 3113 and can be released from pin 30? after removing the hook \? 99. The connecting rod <B> 301 </B> is normally in its left-hand position in engagement with the 30Z pin. It is operated by an arm on the shaft 30.1 which is connected, as shown in <B> fi-. </B> 5,

   to a connecting rod 305 actuated by an oscillating arm 306 biased to the left by a spring 307 and having a nose projecting in the path of a pin 308 carried by the disc 283 in a suitable position to strike the arm 306 and make the disconnection with the sector selector 295 at the end of the setting cry list of successive recorders, after which the sector 295 moves back one step, limited by a pin 309 passing through a slot of the connecting rod 300 and which is fixed on the test rod 2.12. This return movement of sector <B> 295 </B> then allows arm 296 to drop into the first of the notches in the sector to allow printing of the subtotal by means of the total recorder 180.



  To take a grand total, key 238 is lowered three steps, constraining sector 95 forward of the position shown to bring the third of its notches under the arm pin <B> 297, </ B> so as to select the recorder of the grand total 181, while the subtotal recorder 180 is kept out of the socket.

 

Claims (1)

CLAIM Apparatus for recording indications represented by perforations of indication-carrying cards for statistical purposes, comprising, on the one hand, a main section containing pins (reading controlled by the cards whose indications are to be recorded and a selector mechanism arranged to obey these pins so as to select adjustment members with movements of more or less large amplitudes with a view to recording and printing the corresponding indications of the cards and, on the other hand. two secondary sections, one provided with a mechanism with individual recorders for the recording of said indications in dependence on the movements of the selected adjustment members and the other provided with a mechanism enabling a selection to be made successive recorders of the first sub-section in a list of their respective recordings. SUB-CLAIMS Apparatus according to claim, in which the reading pins arranged to be able to advance through the perforations of the cards brought into the recording position, are combined with movable stages established to be controlled by these pins and to control. in turn, sectors for the mechanism <L recorders via transmission members intended to translate the selective adjustment of the pins to the corresponding selectors. Apparatus according to claim and sub-revision 1, in which the plates are provided with pins and combined with movable locking plates before slots for the passage of these pins, these plates being capable of locking combinations of plates. in a retracted position or in an advanced position. Apparatus according to claim, comprising a totalizing mechanism for taking the record totals of the recorders of the recorder mechanism.