CH156272A - Bookkeeping and closing machine control. - Google Patents

Description

  

  Machine for checking through bookkeeping and book closing. The present invention is a machine for control by book management and accounting.



  The purpose of the bookkeeping is partly to provide a chronological compilation of the business transactions occurring in a company, partly to clarify the influence of these business transactions on the financial situation of the company concerned by means of systematic posting. Through this systematic booking, accounts are filed not only about the changes that have been caused by the various business transactions in the assets and liabilities of the company, but also about the profit or loss factors that are included in the business transactions as income or loss . Expenses have contributed.



  In the following, the total assets = assets, and the total debts, including the so-called "own funds" = liabilities on the one hand; All the different types of profit factors, that is to say the factors attributable to income, and of loss factors, that is to say the factors causing expenses, on the other hand, are referred to as the four basic factors of the company in question. The assets and liabilities can be described as the two basic capital factors of a company, the profit and loss factors, i.e. the factors attributable to income and expenses, can be described as the basic result factors of the same.

   The different groups or types in which the assets can be divided, such as cash register, goods. Accounts receivable, etc., and the various groups or types of liabilities, profit and loss factors - each group or type in isolation - may be called the specialty factors of the company. All active special factors together give the active basic factor, and all passive special factors together form the passive basic factor.



  The bookkeeping also aims to clarify the real situation and position of a company through the closing of accounts, the so-called book closing, periodically, for example annually, monthly, daily, and the assets and liabilities existing after the just past operating period, as well as the size of the surplus Assets over liabilities or, if any, the size of the surplus of liabilities over assets, i.e. a deficit. The respective surplus or deficit is of course caused by the business incidents that occurred during the relevant operating period. A difference between assets and liabilities that arises after this operating period is called a capital shift.



  The bookkeeping should also be able to make it clear how a surplus or deficit came about, that is, it should be evident what income or Expenses have been taken into account and how large each of these income and expenses has been that have increased or decreased the capital factors; It should even be possible to determine by how much larger or smaller the sum of all profit factors was than the sum of all expiration factors, because this difference between the result factors caused the capital shift mentioned above.

    The difference between profit and loss factors, i.e. the factors that cause income and expenses, is the net result of the company and must of course be the same as the capital shift. When closing the books, you also get knowledge of the net wealth, which forms the difference between the active and that part of the passive that includes the so-called third-party debts, that is, the so-called own funds increased or decreased by the size of the during one Operating period arising capital shift.



  Every business transaction always means a simultaneous and equal change in the size of two special factors, a fact that becomes apparent in double-entry bookkeeping because every credit posting always corresponds to a debit posting. In normal booking practice, increases in assets are always posted as debit (debit) items, and decreases in assets as credit (credit) items. Similarly, increases in liabilities are posted as credit items, and decreases in liabilities as debit items.

   Losses due to expenses are recorded as debit items for the same reason, therefore reductions in posted losses are recorded as credit items, while gains due to income are recorded as credit items and corresponding reductions in posted income as debit items.



  For the sake of clarity, in the following explanations the assets are denoted by T, the liabilities including own funds with S, expense items with F, income items with Y, increases with +, decreases with -.

   The basic postings of any conceivable changes can then be illustrated in the following way:
EMI0002.0014
  
    <I> Principal <SEP> debit items <SEP> principal <SEP> credit items </I>
<tb> (Active) <SEP> <I> T <SEP> + </I> <SEP> <B> 71- </B>
<tb> (Passives) <SEP> S <SEP> - <SEP> .S
<tb> (Expenditure) <SEP> F + <SEP> <I> (F <SEP> -) </I>
<tb> (Income) <SEP> (V <SEP> -) <SEP> V (For the meaning of the items in brackets, see below.) Assuming the fact that a change in debts must always correspond to a change in credit and Vice versa, and if one examines all conceivable types of changes from this point of view, one obtains the following purely mathematically possible combinations according to the scheme presented above:

    
EMI0003.0001
  
    <I> Debit <SEP> Credit <SEP> Debit <SEP> Credit </I>
<tb> T + <SEP> T <SEP> - <SEP> 5 <SEP> T <SEP> + <SEP> T <SEP> - <SEP> 5
<tb> T <SEP> + <SEP> S <SEP> + <SEP> 6 <SEP> S <SEP> - <SEP> T <SEP> - <SEP> 8
<tb> T <SEP> + <SEP> (F <SEP> -) <SEP> 1 <SEP> x <SEP> F + <SEP> T <SEP> - <SEP> 1
<tb> T <SEP> + <SEP> V <SEP> + <SEP> 3 <SEP> (V-) <SEP> T <SEP> - <SEP> 3x
<tb> S <SEP> - <SEP> T- <SEP> 8 <SEP> T <SEP> s <SEP> + <SEP> 6
<tb> s- <SEP> S + <SEP> 7 <SEP> S- <SEP> S + <SEP> 7
<tb> S- <SEP> (F-) <SEP> 2x <SEP> F + <SEP> S + <SEP> 2
<tb> S- <SEP> V <SEP> + <SEP> 4 <SEP> (V <SEP> -) <SEP> s + <SEP> 4x
<tb> F <SEP> + <SEP> T- <SEP> 1 <SEP> T <SEP> + <SEP> (F-) <SEP> lx
<tb> F + <SEP> s + <SEP> 2 <SEP> s- <SEP> (F-) <SEP> 2x
<tb> F + <SEP> (F-) <SEP> 9 <SEP> F <SEP> + <SEP> (F-) <SEP> 9
<tb> F <SEP> + - <SEP> v <SEP> + <SEP> 10 <SEP> (V <SEP> -)

   <SEP> (F <SEP> -) <SEP> 1 <SEP> 2
<tb> (<SEP> v <SEP> -) <SEP> T <SEP> - <SEP> 3 <SEP> x <SEP> T + <SEP> V <SEP> + <SEP> 3
<tb> (<SEP> V <SEP> -) <SEP> s <SEP> + <SEP> 4 <SEP> x <SEP> S <SEP> - <SEP> V <SEP> + <SEP> 4
<tb> V-) <SEP> (F <SEP> -) <SEP> 12 <SEP> F <SEP> + <SEP> V <SEP> + <SEP> 10
<tb> (V-) <SEP> V + <SEP> 11 <SEP> (V-) <SEP> V <SEP> + <SEP> 11 From this representation it can be seen, which, by the way, goes without saying, that each combination twice occurs, which is why you are really only dealing with 16 different combinations, the most important of which are numbered 1 to 12; the four combinations marked with an x are only inversions, meaning that the combinations marked with the same numbers without an x are reversed.

   For example, means that
EMI0003.0004
  
    Debit <SEP> credit
<tb> T + <SEP> F- <SEP> (1x) that means the increase of an asset at the same time as the decrease of a previously booked expenditure only the reversal of
EMI0003.0006
  
    Debit <SEP> credit
<tb> F-1- <SEP> T- <SEP> (1) that means the reduction of an asset is simultaneous with the booking of an expense.



  If you also use the x-signs, you get the following scheme, all possible. Combinations of changes, including bookings in principle, include:
EMI0004.0001
  
    <I> Debit <SEP> Credit </I>
<tb> <I> Debit <SEP> Credit </I>
<tb> <B> e </B>
<tb> 1 <SEP> F + <SEP> T- <SEP> lx <SEP> T + <SEP> (F-)
<tb> 2 <SEP> F + <SEP> S <SEP> + <SEP> 2 <SEP> x <SEP> S <SEP> - <SEP> (F <SEP> -)
<tb> 3 <SEP> T <SEP> + <SEP> V <SEP> + <SEP> 3 <SEP> x <SEP> (<SEP> V <SEP> -) <SEP> T 4 <SEP> 8 - <SEP> V <SEP> + - <SEP> 4x <SEP> (V <SEP> -)

   <SEP> S <SEP> +
<tb> 5 <SEP> T + <SEP> T- <SEP> 5x <SEP> T + <SEP> T 6 <SEP> T <SEP> + <SEP> S <SEP> + <SEP> 6 <SEP> x <SEP> 8- <SEP> T <SEP> 7 <SEP> S <SEP> - <SEP> S <SEP> + <SEP> 7 <SEP> x <SEP> S <SEP> - <SEP> S +
<tb> 8 <SEP> S- <SEP> T- <SEP> Sx <SEP> T + <SEP> S +
<tb> 9 <SEP> F <SEP> + <SEP> (F-) <SEP> 9 <SEP> x <SEP> F + <SEP> (F <SEP> -)
<tb> 10 <SEP> F + <SEP> V + <SEP> lox <SEP> (V-) <SEP> (F-)
<tb> 11 <SEP> (V-) <SEP> V <SEP> + <SEP> 11x <SEP> (V-) <SEP> V +
<tb> 12 <SEP> (VT-) <SEP> (F-) <SEP> 12x <SEP> F <SEP> + <SEP> V + (The combinations framed in the above scheme are expressed in words below) .



  A closer examination of these different combinations reveals that the combinations marked 1-4 and lx-4x are such that they change the size of a capital factor and at the same time that of a result factor. The combinations labeled 5-8 and 5x-8x change the size of two capital factors at the same time, while those with 9-12 and 9x-12x only change the size of two result factors at the same time.



  Since every business transaction that arises as a result of interaction with other companies, for example companies and people, which does not involve any transfer within one's own company, always influences at least one, if not both, capital factors (S and T), If the combinations labeled 9-12 and 9x-12x have no influence on the capital factors, they should not be assessed as real business transactions, which is why they can be completely disregarded.



  The combinations marked with 1x-4x denote those business transactions which reduce profits through income or losses as a result of expenses. A decrease in a profit does not mean an increase in a loss, even if both are related to a decrease in net profit. amounts to an increase in the net loss, but can only be assessed as a decrease in an amount that previously turned out to be profit.

   Likewise, reducing a loss is not the same as increasing a profit, although both an increase in net profit or leads to a reduction in net loss, but only needs to be assessed as a reduction in an amount that was previously assessed as a loss. Therefore, F- and V- are placed in brackets in the above scheme. The combinations marked with lx-4x therefore only mean corrections or reversals of the basic business transactions marked 1-4.

    The combinations marked 5x-8x also contain basically nothing new, since 5x basically = 5, 6x = 8, 7x = 7, 8x = 6.



  If you analyze all conceivable business transactions. so one arrives at the conclusion that they can only belong to eight (8) classes, which therefore represent the only eight business transactions that occur in economic life and that are considered for accounting, which change the four basic factors a can work.

   These eight business transactions entered in the framed part of the above scheme are: 1. Due to a loss (F +) caused by an expense, a type of asset (T-) is reduced; 2. because of such a loss (F +) a kind of passives (S +) increases; 3. A type of asset (T +) increases because of a profit (V +) that has come about through income; 4. because of the same gain (V +) a type of passive (8-) is reduced; 5. one type of active increases, ie T +, while at the same time another type of active decreases, ie T-; 6. one type of active multiplies, i.e. again T +, while one type of passive also increases: 7. one type of passive decreases, that is S-, while at the same time another type of passive increases: S +;

    B. a kind of passive decreases, thus again S-, while at the same time a kind of active also decreases: thus T-.



  By grouping these eight combinations, it becomes clear that all incidents occurring in economic life are of three types: I. Money, or what can be expressed in monetary value, is lost: Incidents 1 and 2; II. Money or monetary value is earned: Incidents 8 and 4; III. Money or monetary value is moved: Incidents 5 to B.



  Only the incidents listed under I. and II. And their corrections actually result in such changes in basic factors that they change the business result, i.e. the net profit or loss.

   The under III. The incidents listed, however, do not change the relationship between assets and liabilities, because they do not induce any shifts in capital, but only mean that different groups of assets are exchanged for one another or different groups of liabilities are exchanged for one another, with different ones Groups of active people increase or decrease, at the same time as different groups of passives see decrease or increase.



  For control bookkeeping, it is necessary to carefully book all business transactions on the basis of an economic analysis, namely on the receipt, on the debit side of one account, on the credit side of another account and in the journal.



  For the practical implementation of such a control through bookkeeping and bookkeeping, the machine forming the subject of the invention is now provided with arithmetic tools for addition and subtraction and with an adjustable analysis device corresponding to the business transactions occurring in a company, which is connected to the said arithmetic units in such a way, that when the analyzing device is operated, two arithmetic units intended for a specific business transaction are always put into readiness for work.

   This enables the machine to immediately report the amount of net profit or loss and the amounts of assets, debts, profits and losses in a single operation. When using the accounting, which is based on the above-mentioned analysis of business transactions and is referred to below as the "Kontograph method", the relevant arithmetic units can be put into operation in the order required by this method.



  The machine can be designed in such a way that the following purposes can be achieved: That by means of a single device, in addition to the amounts mentioned, the amount that a particular factor, for example the cash register, is supposed to receive according to money received and paid, is calculated plant can be specified; that, in addition to the amounts mentioned above, the sum of the amounts of posted receipts can also be indicated immediately by means of a single device; that in addition to the amounts mentioned above, the machine can also use a single device to indicate the control number of the receipt;

   that in the machine the number of economic analyzes of the receipt, the date, the control number and the amount of the receipt can be printed simultaneously in different places, for example on the debit side of an account, on the credit side of an account, from the receipt and in the journal, which enables direct bookkeeping.



  The analyzer for the purpose of simultaneous setting of two arithmetic units in an effective position can, for example, have several so-called analysis buttons, or just one analysis button that can be set at different heights, in which it sets two arithmetic units for the business transactions to be booked each time. Instead of an analysis button, an analysis lever can also be provided which can be pivotably arranged and set in various angular positions. Preferably, however, corresponds to the number of Analvsiertasten BEZW. -lever the number of business transactions, i.e. eight.



  The machine can also be provided with a further arithmetic unit, the so-called chronological total amount arithmetic unit, which indicates the total of all posted items. The machine can also be provided with a device that automatically, that is, without the help of a key, prints the number of items in chronological order, which of course tert facilitates control. The machine can also be provided with a device for the purpose of returning the machine to any desired position. If, for example, an item has accidentally been incorrectly booked and printed, the arithmetic units can be returned to the positions that they occupied before booking and before the erroneous item was printed using this additional device.

   This Rückführungsvor direction can have a single button, especially if the analyzer has only one button; however, it preferably has a number of keys which are arranged in such a way that they set the arithmetic units in a calculation method that is opposite to that in which the corresponding analysis keys set the arithmetic units mentioned.



  While Fig. 1 schematically illustrates the principle of the contograph method, in the other figures of the accompanying drawings a suitable embodiment for carrying out this contograph method of the subject invention is Darge, namely show: Fig. 2 the same in a plan view, Fig. 3 in a Side view;

         4 is a side view of a row of number keys, FIG. 5 is a vertical section along the line V-V in FIG. 4, FIG. 6 is a similar section through a row of analysis keys; Fig. 7 shows in a side view the device for controlling the arithmetic units, seen from the key table and from the drive shaft.



  First, the principle of the account graph method used with the machine will be discussed in more detail with reference to FIG. In this figure, 1, 2, 3, 4, 5, 6, 7 and F denote eight analysis keys, one of which corresponds to one of the eight business transactions that are indicated to the left of the keys in accordance with the above-mentioned designations.
EMI0007.0001
   and denote
EMI0007.0002
    eight return keys, each of which corresponds to the business transaction that is opposite to that of the corresponding analysis key, as indicated to the right of said return keys, that is, key
EMI0007.0003
   for example, represents the business transaction T +,

   F- because key 1 represents the business transaction T-, F +, etc. Between the two rows of keys, six arithmetic units are shown, from top to bottom the active arithmetic unit RA ', the passive arithmetic unit RB', the chronological one Represent the total amount accounting unit T, the result arithmetic unit RC ', the profit arithmetic unit RB "and the loss arithmetic unit RA". The way in which the various analysis and return keys affect these six arithmetic units is illustrated by lines drawn from the keys to the arithmetic units.

   It can thus be seen, for example, that the analysis key 1, which represents the business transaction: Increase in loss and decrease in assets, that is F +, T-, with the minus side of the active arithmetic unit RA 'the plus side of the Loss arithmetic unit RA "and the minus side of the result arithmetic unit RC 'is connected. Furthermore, this key, like all the other analysis keys, is connected to the chronological total amount arithmetic unit T. The return key is connected to the plus side of the active one Calculator
EMI0007.0010
   RA ', the plus side of the result arithmetic unit RC' and the minus side of the loss arithmetic unit RA "connected, according to the business transaction represented by this key.

    In other words, when you press the analysis button 1, the active arithmetic unit RA 'is set for subtraction, the result arithmetic unit RC' also for subtraction and the loss arithmetic unit RA "for addition, whereas when the return button is pressed
EMI0007.0013
   the stated sets of units are set for the opposite type of calculation. Furthermore, if any one of the keys 1 to 8 is depressed, the total amount arithmetic chronological arithmetic unit is set in motion, and this arithmetic unit adds up all the items one after the other, regardless of the type of calculation.



  Of course, the result arithmetic unit RC 'is only used for the first four classes of business incidents, since the economic result remains unchanged after a business incident in the fifth, sixth, seventh or eighth class has been booked. The analysis keys 5 and 7 are only connected to the chronological total amount arithmetic unit T, because these keys represent business transactions that only transfer to the active or Initiate passive calculators.

   Of these keys 5 and 7, as well as the corresponding return keys and are infolgedes sen dotted lines
EMI0007.0023
   either
EMI0007.0024
   drawn after the plus side and the minus side of the active arithmetic unit <I> RA ', </I> as well as after the plus side and the minus side of the passive arithmetic unit RB', there a Depressing said keys will affect corresponding pressure devices, but without influencing the corresponding arithmetic units.



  <I> The </I> general <I> arrangement of </I> the machine. The machine illustrated in the drawings has (see particularly FIG. 1) two identical machine units <I> A </I> and <I> B, </I> which are each attached to one side of a third machine unit C. The three machine units A, B and C each contain two arithmetic units: one for addition, the other for subtraction. It should be noted, however, that the middle unit C has only one arithmetic unit (instead of two). could.

   For the sake of simplicity, only the arithmetic units of the central unit C are shown in FIG. 2 and designated with RC and IOC "; but since reference is made to the other arithmetic units in the description below, the same RA ', RA" and RB ', RB ", belonging to the machine units A and B, respectively. Each machine unit also contains a printing device <I> TA, TB </I> and TC, each with an associated hammer mechanism SA, SB and SC The three machine units <I> A, B </I> and C are dominated by a common key table D.



  <I> The </I> key table.



  In the embodiment shown, the key table contains several key groups, namely, calculated from the left in FIG. 2, a group of eight keys 1-8 for the purpose of setting the machine for a specific business transaction; these keys are labeled E and are called analysis keys and correspond to keys 1-8 in Fig. 1; a group of eight buttons
EMI0008.0004
    the so-called return keys F correspond to the keys
EMI0008.0007
   in Fig. 1; a group of twelve month keys G for entering the name of the month, which are identified by the first three letters of the name.

    The keys for the months of January to September are arranged in the third row of keys, and those for the months of October to December in the fourth row of keys. In addition, a group of three date keys H and a group of nine date keys K for booking the day in the month and finally a group of "real number keys" L comprising several rows are provided. The embodiment shown has five such rows. Furthermore, the first row of keys contains an additional key K +, the second row of keys an additional key K- and the fourth row of keys an additional key "L", the function of which will be explained below. Other keys can also be provided for different purposes.



  The transmission system from the key table to the collector.



  The number keys L, the date keys H and g and the month keys G each have a button lever 10 provided at the upper end with a button 12, which is guided in the Ta stentisch 11 (Fig. 4 and 5). All buttons in a row interact with a common release device for a collector rod 14 (Fig. 4 and 5). For the sake of simplicity, the various collector rods are not different from each other, but all have the same designation 14. Each release device has a plate 16 which is pivotably mounted at its ends at 18 on a key table partition wall 19.

   A spring 20 seeks to keep said plate 16 in such a position that its front end engages in a downwardly directed projection 21 on the collector rod 14. The key levers 10 are each provided with a protrusion 22 before, and a respective spring 23 connects such a protrusion 22 with another key table partition wall 2.1. The collector rod 14 is provided with a stop 25 at its front end.

   In Fig. 4 and 5 a button is illustrated in the depressed ter position, and, as shown, the projection 22 of the corresponding key lever 10 in said position forms a stop for the collector rod 14, in a manner to be described later. During the setting, the keys G, H, g and are held in their depressed position.



  The collector rods 14 are each operated by a spring 26 (Fig. 3) which is attached at one end at 28 to the rod 14 and at its other end at 30 on the machine frame Ma. The springs 26 tend to move the collector rods backwards. The collector rods 14 are each at their rear ends at 32 with a gear 34 movably verbun the. The gears 34 are all loosely attached to a common shaft 36 which is mounted in the side walls 37 and 39 of the machine frame.

   These gears 34 form the collector of the machine, which will be described in more detail later.



  In the embodiment shown, the third row of keys, calculated from the left in Fig. 2, as mentioned above, contains nine keys, labeled "Jan" to "Sep", and the fourth row of keys contains the remaining three month keys "Oct", " Nov "and" Dec ", the latter are switched to the third row of keys and also operate the collector rod 14 associated with this row, which consequently can assume twelve different positions. The above-described arrangement of the month keys G has been chosen for symmetry.



  The transmission system for the analysis keys E and the return keys F differs somewhat from that for the other keys. The keys E and F have a common collector rod, which has also been designated with 14 for the sake of simplicity. The keys each have a key lever 40 with button 42 (FIGS. 3, 6 and 7); these levers are each with their lower end on one arm of an angle lever 44 which is mounted at 46 in the stentischrahmen Ta. A spring 48 endeavors to keep the associated key in the upper position. The angle lever 44 engages a trigger rod 50 in the rest position and holds this rod in the rest position in the lowered position against the action of a spring 52.

   The rod 50 is provided with three stops 54, 56 and 58, calculated from top to bottom. Above the top row of stops 54 of all Stan conditions in a row, a return plate 60 is attached, which is out of engagement with said stops 54 in the rest position. At one edge of the flat plate 60 pegs 62 are attached, which are rotatably mounted in the frame 61, 63. On said plate 60 a downwardly directed member 64 is hinged, which is provided at its un tern end with an eyelet 66 (Fig. 6). One end of a two-armed lever 68 (FIG. 3) protrudes into this eyelet 66, while the other end of the same rests in the rest position against the end of an arm 70 which is attached to the drive shaft 100.

   The lever 68 is provided at this end with an inclined surface 72 behind a nose. Between its ends, the lever 68 is seen with a slot 74 ver, in which a pin 76 which is attached to the machine frame and the Drehzap fen of the lever 68 forms., Engages. A Fe of 78 is anxious to rotate the lever 68 counterclockwise (Fig. 3).



  Above the second row of stops 56 (FIGS. 3 and 6) there is a restraint rod 80 which is pivotably mounted in the machine frame at 82. This inhibitor rod 80 prevents any backward movement of the collector rod 14 from its initial position in its rest position; the stop 84 on the collector rod 14 cooperates with some leeway with the inhibitor rod 80 just mentioned. The collector rod 11 is arranged between the second row of stops 56 and the third row of stops 58 and, in the same way as all other collector rods 14, is movably connected at its rear end at 32 to a gear 34 of the collector.



  Two rows of axes 90 and 92 he stretch below the key table D (Fig. 3 and 7), there are six axes in each row. On each of these axes are angle levers 94 respectively. 96 stored. The analysis keys E 1, 2, 3, 4, 6 and 8 are each with an angle lever 94 and the return keys F.
EMI0009.0012
    and
EMI0009.0013
   are each connected to an angle lever 96 by means of a wire 98.

   The keys E, 5 and 7, F, and
EMI0009.0015
   no such angle levers are assigned,
EMI0009.0016
   since they have no influence on any arithmetic unit, with the exception of the chronological total amount arithmetic unit T, which is operated independently of such levers 94 and 96. In order to allow a suitable transfer from the key table to the three machine units, the axes 90 and 92 (FIG. 2) are extended to the side of the key table and similar angle levers 94 and 96 are provided for each unit, preferably on both sides of each unit as shown in FIG.

   A pair of bell cranks 102 and 104 is arranged under the collector gears 34 of each machine unit and on both sides thereof; the levers 102 are referred to below for convenience because of the "minus lever" and the lever 104 "plus lever". Wires 706 each connect one of the angle levers 94 and 96 to a plus lever 104 and a minus lever 102 of the individual arithmetic units in the three machine units <I> A, B </I> and C, according to the business transaction that is triggered by the corresponding Analyze or return key is displayed. The angle levers 102 and 104 are respectively in the machine frame around pins 110. 112 rotatably mounted and control the setting of the individual arithmetic units in a manner yet to be described.

      The collector: As already mentioned, the collector comprises a series of gear wheels 34 which are loosely mounted on a common shaft 36. In the embodiment shown, each machine unit contains twelve such collector gears 34, namely, calculated from the right in FIG. 2: first five gears, corresponding to the five rows of "real number keys" L; then a gear for the fifth, fourth and third row of keys; Then a cogwheel common to the second and first row of keys, and finally three cogwheels to be described later, belonging to a device for chronological numbering. The shaft 36 extends transversely through the entire machine and is consequently not just the collector gears 34 of a unit, but those of all three units A, B and C in common.

   The collector gears 34 are each in engagement with a small gear 114a, 114b, or 114e, respectively, and three such small gears, which engage in corresponding gears 34 of the three units A, B and C, are each on a common axis 116 attached which axes are stored in the machine frame. In Fig. 2 only one of these axes is shown in order not to complicate the drawing.

   As shown in Fig. 2, only the collector gears 34 of the central unit C are connected to the key table by means of the collector rods 14 or controlled by the device for numbering in chronological order; But since the collector gears 34 in the middle A unit C mentioned, each with corresponding collector gears of the two side units A and B through the gears 114 a, b, c and the axes 116 are inevitably connected, who as a result, all three Maschineneinhei th at the same time and set in exactly the same way, in accordance with the setting on the key table D.

   As will be described later, the individual arithmetic units are normally, that is to say during the setting, kept out of engagement with the collector gears 3.1; the calculators mentioned are of course not set in the same way in all three machine units, but only the collector gears of the units mentioned.



  The collector gears 34 are also in constant engagement with two transmission gears 130 (FIGS. 3 and 7), over each of which an arithmetic unit is arranged in a manner to be described.



  Each collector gear 34 is operated by a spring 132 which tends to rotate it clockwise (Figs. 2 and 3).



  Arms 134 are mounted on the ends of collector shaft 36; the free ends of the arms are connected by a rod 136 which extends through all three units, A, B, C, and in the rest position rests against one of the spokes of the collector gears 34 and thus acts as a restraint rod for them Serves gears and keeps them in the initial position. A connecting rod 138 is preferably articulated between the ends of said rod 136 on this; its other end is connected to a crank 140 gelenkib which is net angeord on the main drive shaft 100. An arm 142 is attached to the aforementioned shaft 100 and provided with a pin 144.

   Springs 146 attacking the crank 140 strive to keep the locking rod 136 in engagement with the gears 34 through the connecting rod 138 (FIG. 3). The arithmetic units.



  An arithmetic unit is attached above each transmission gear 130 (FIGS. 3 and 7), which contains, in a known manner, a number of digit disks 150 which are provided with digits from 0 to 9. The Zifferschei ben 150 are each rigidly connected to a gear 152 and sit loosely on a common axis 154. The gears 152 are in constant engagement with a gear 156 which is loosely attached to an axis 158. The ends of the axles 154 and 158 are mounted in bridges 160, the rest position of these bridges is such that the gears 152 are out of engagement with the corresponding transmission gears 130. The arithmetic units are provided with tens transmission devices which, because they are known, are not described in detail.

      <I> The </I> control <I> the </I> arithmetic units <I> from the </I> key table.



  The individual arithmetic units are set for addition and subtraction using the analysis and return buttons in accordance with the business transaction to be posted. Since all arithmetic units RA ', RA ", RB', RB", RC ', RC "are controlled in the same way by the angle nebulae 102 and 104, it should suffice to only use the control device for a pair of arithmetic units, namely RA' and RA "to describe.



  The so-called plus lever 104 (FIGS. 3 and 7) of the arithmetic unit RA ″ is connected by means of a wire 107 to one arm of an angle lever 164, which is arranged under the arithmetic unit RA ″ and pivots in the machine frame with pins 166 is attached in such a way that in the rest position it carries the arithmetic unit which is disengaged from the corresponding transmission gears 130, the end of the axis 154 protruding over the bridge 160 and resting against the upright arm of the lever 164. The so-called minus lever 102 of the arithmetic unit RA 'is connected by means of a wire 168 to a locking pawl 170 which is rotatably mounted on a stationary pin 172. A two-armed lever 174, which is loosely mounted on a fixedly mounted axis 176, is in the rest position with the aforementioned locking pawl 170 in engagement.

   A spring 178 tends to rotate said lever 174 counterclockwise. At its upper end, the lever 174 carries the already mentioned bridge 160 in which the computing unit is attached. A spring 180 strives to press the arithmetic units against the downward arms of the angle lever 164 and to pivot the arithmetic units for a handle with the transmission gears 130 as soon as the support devices of the arithmetic units are actuated by the drive shaft 100 in a manner yet to be described.



  <I> The </I> control <I> of the arithmetic unit from the </I> drive shaft.



  A curved, the armature of a pocket watch-like member 184 which is provided with an arm 186 which is actuated by a spring 188 and is held in the rest position shown in Fig. 7 by a pawl 190 against the action of the spring 188 is pivoted at 1 $ 2; said pawl is attached at 192. An arm 194 is fastened to the drive shaft 100 and is provided with a roller 196 which interacts with the aforementioned locking pawl 190.

   When at the end of a forward stroke of the drive shaft 100 the roller rests against the pawl 190, the link 184 is released with its arm 186, and when at the end of a backward stroke of the shaft 100 the roller 196 rests against an inclined surface 198 of a projection 200 of the curved link 184 applies, the latter is brought into engagement with the pawl 190 again. A connecting rod 202 is hinged to the free end of the arm 186; its other end is connected to an arm of an angle lever 204, which is supported at 2061.

   The free end of the other arm of the angle lever 204 is connected by means of a rod 206 to an arm of an angle lever 208 similar to it, which is mounted at 210. The angle levers 204 and 208 serve as supports for the extensions 212 of the bridges 160 of the two arithmetic units RA 'and -RA ".



  There are also devices for returning any of the arithmetic units to the original position when it is adjusted for subtraction in a manner to be described. Said devices have an arm 214 which is attached to the drive shaft 100 and provided with a pin 216 which engages in a Ku lisse 218 at the lower end of a connecting rod 220, the upper end of which is hinged to the free end of an arm 222, which Arm is attached to the axis 176 of a computing unit RA ". On the axis 176, another arm 224 is attached, which is connected by means of a connecting piece 226 to an arm 228 similar to it, which is on the axis belonging to the series unit RA ' 176 is attached.

   The arms 224 and 228 are each seen with a pin 280 which rests against one side of the lever 174. The levers 174 are thus locked in the rest position by the pins 230 in the position of engagement with the pawls 170. The pressure devices.



  Each collecting gear 34 (FIG. 3) is provided with a gear segment 232 which, in the embodiment shown, has a smaller diameter than the actual wheel 34. A gear sector 234, which is mounted on the shaft 236, is in engagement with said segment 282. On the shaft 286, an arm 238 is also fastened, which is articulated at its free end by means of a connecting rod 240 with a protrusion 242 of a type arm 244, which type arm is provided at its upper end with type bars 246 in the form of small rods that enforce the type arm 244 and extend past it on both sides of the same.

   The type rods 246 have numbers from 0 to 9 at one end, calculated from top to bottom, with the exception of the rods of those type arms that correspond to the month key rows that have the designations of <I> "Jan" </I> to "Sep" and "Oct" to "Dec", and the rods of the type arm that corresponds to the date buttons H, which only carry the digits 1, 2 and 3. The front ends of the type rods 246 cooperate with a hammer mechanism .



  Each machine unit is equipped with a printing device, <I> TA, </I> or TC, re spective TB, as indicated in FIG. 2. A further printing device is also provided, by means of which the posted items can be entered in the notebook (journal) in which the items are printed in chronological order regardless of the type of calculation.

   This printing device is shown schematically in Fig. 3 below and has type rods 250, which are mounted in the un tern part of the type arms 244 in the same manner as in the printing device TA (above), and a hammer mechanism SD, the penstangen with the aforementioned Ty cooperates. Printing takes place on paper on the platen PD, the paper being unwound from a roll 252 and wound onto a roll 254.

    <I> The </I> device <I> for chronological </I> registration. As stated above, the collector of each machine unit contains a number of collector gears 34 which belong to a device for chronological numbering. In the embodiment shown, these gears are the first three gears, calculated from the left in FIG. 2. Each of these gears 34 is in engagement with a pinion gear 256 (FIG. 3), which drives are loosely mounted on a common axis 258. A number of larger gears 260, one for each pinion 256, are mounted on the same axle.

   The gears 260 and the ten transmission gears 262 that engage in the same, as well as the drives 256 together form an arithmetic unit that is moved forward by one step for each booked business event. The before direction associated collector gears 34 do not of course work together with any computing gears of the arithmetic units, but each with a printing unit in the printing devices.



  The chronological total amount calculator. Below the collector gears 34 of one of the machine units, for example the left, A, a number of transmission gears 2621 are loosely mounted on a common shaft 263 and are in constant engagement with the Collectorzahnrä countries 34; Such transmission gears 262 'are only provided for the collector gears 34 corresponding to the rows of actual number keys. A corresponding number of dial washers 266, which are each rigidly connected to a gear wheel 268, are loosely attached to an axle 264. This axis is loosely held in bridges 270, which sit loosely on an expediently attached shaft 272 in the machine frame (Fig. 7).

   An arm 274 is fastened on said shaft 272 and is connected by means of a connecting rod 276 to an arm 278 which is attached to the shaft 2061 of one of the angle levers 204. The arithmetic unit T, which has said disks 266 and wheels 268, is kept out of engagement with the collector gears 34 in the rest position, but is brought into engagement with the latter at the same time as other arithmetic units, as will be described below.



  The way the machine works. For the purpose of explaining how the machine works, it is assumed that work RA '"Active" and RA "Losses" of the two arithmetic units of unit A, that of the two arithmetic units of unit B, work RB' "Passives" and BB " "Profit" posts and that the rear arithmetic unit RC of the middle unit posts the result. It is also assumed that the business transaction to be booked originates from May 6, on which day letter paper was purchased in cash for CHF 7.25. The cashier or the spending person correctly analyzes this business transaction as belonging to the first class and writes a "1" on the receipt.

   When the person operating the machine then gets the receipt in hand and has to book the business transaction, they press the following keys, calculated from the left in FIG. 2: in the first row key "1", in the third row key "May", in the fifth row key "6", in the eighth row key "7", in the ninth row key "2" and in the tenth row key "5".



  When pressing key "1" in the first row, which key with the so-called minus lever 1.02 of the rear arithmetic unit RA 'of the left unit <I> A, </I> the so-called plus lever 104 of the front arithmetic unit RA "the same unit and with the so-called minus lever 102 of the Re sultat arithmetic logic unit RC is connected, in accordance with the diagram shown in Fig. 1, the angle lever 44 triggers the relevant (foremost) trigger rod 50, which is located under the Action of the spring 52 moved upwards,

   wherein on the one hand the stop 56 on the said rod, the inhibiting rod 80 out of engagement with the stop 84 of the collector rod 14 swings. and on the other hand, the stop 58 forms a stop for the collector rod 14 during the subsequent backward movement dersel ben. The collector rod 14 cannot yet move backwards because it is prevented from doing so by its connection with the corresponding collector gear 34 which is still locked by the inhibitor rod 136. As soon as the trip rod 50 moves upwards, the associated Win angle lever 94 is rotated counterclockwise (Fig. 3) and causes the two angle levers 102 and 104 to rotate in the same direction.

   The rotation of the so-called minus lever 102 of the rear arithmetic unit <I> RA '</I> of the left unit <I> A </I> and of the rear arithmetic unit RC' of the middle unit C releases the double-armed lever 174 from the pawls 170 here, which levers are therefore now free to swing counterclockwise, under the action of the springs 178, to be able to swing out. This rotation is, however, for the time being prevented by the engagement of the said lever with a pin 230 on the arm 228.

   By rotating the so-called plus lever 104 of the front arithmetic unit RA "of the left unit A, the angle lever 164 of said arithmetic unit is rotated clockwise and disengaged from the end of the axis 154, this arithmetic unit nonetheless by the bridge 160, the rests with its extension 212 on the lever 204, is carried.



  When the "M1ai" button is pressed, the corresponding button rod 10 (FIG. 4) moves downwards, brings the corresponding collector rod 14 out of engagement with the plate 16 and forms with its lower end a stop for the subsequent backward movement of the rod 14. In the same way when the Ta most "6", "7", "2" and "5" are pressed down, the corresponding collector rods 14 are triggered, the individual key rods 10 forming stops for the associated collector rods during the subsequent backward movement of the same ben.

   For the same reason as noted above with respect to the analyzer key collector rod 14, these rods cannot move backward until the drive shaft 100 is actuated. The machine is now set for the booking in question.



  Before the drive shaft is actuated, the receipt and two account cards are placed in the printing devices TC, <I> TA </I> and <I> TB </I>, the account cards, of course, in accordance with the class to be booked Business transaction can be selected. In the example given, the two accounts that are affected by the relevant business transaction are the cash account and the expenditure account.



  If now the drive shaft 100 is rotated in the clockwise direction, the arm 214 attached to it is rotated in the same direction, the pin 216 of the mentioned arm in the coulisse 218 of the connec tion rod 220 slides, which can now move upwards and allows the double-armed levers 174 of the arithmetic units <I> RA '</I> and RC, which have already been brought out of engagement with the corresponding pawls <B> 170 </B>, counterclockwise under the action of the springs <B> 178 </B> swing out, which causes the arithmetic units RA 'and RC to swing in the same direction by such an angle,

   that the subtraction gears 156 of the arithmetic unit come straight over the corresponding transmission gears 130, Zoobei the extension 212 of the support bridge 160 slides on the pin 205 of the angular lever 204. During this movement Be the lever 174 rotate the arms 22.1 and 228 in the opposite direction of the clock pointer, the connecting rod 220 is lifted.

   At the same time, the arm 142, which is fastened to the drive shaft 100, is rotated in the clockwise direction and, by means of its pin 144, rotates the crank 140 in the same direction, so that the connecting rod 138 disengages the inhibitor rod 136 from the collector gears 34, and the collector shaft 36 is rotated by an angle corresponding to ten teeth of the toothed wheels 34.

   Here, those collector rods 14, the keys ent speak that have been actuated, move freely backwards, in the example given, the collector rods 14 corresponding to the first, third, fifth, eighth, ninth and tenth row of keys. As a result, the actuated keys ent speaking collector gears 34 are rotated, starting from the left in Fig. 2: the first gear by one tooth (Analyze button "1"), the third gear by five teeth (month "May"), the fifth gear by six teeth (the day "6") and the eighth, ninth and tenth gears by seven, respectively. two and five teeth.

   A further rotation of the gears is with respect to the analy siertasten collector gear by the to are the collector rod 14 against the stop 58 of the trigger rod 50 of the button "1" and with respect to the other gears by abutment of the collector rods 14 against the end of the key rods 10 of the Niederge pressed buttons prevented. All gears 34, which correspond to rows of keys which do not contain an actuated key, are prevented from rotating by the corresponding collector rods in that the latter are blocked by the plates 16. The gears that have been actuated have consequently been set to "1", "May", "6", "7", "2" and "5" starting from the left in Fig. 2, and the transmission Wheels 130 of said wheels have of course been adjusted in the same way.

   By rotating the gears 34, the corresponding gear sectors 234 have been rotated on their shafts 236, the corresponding type arms 244 being set in the same way.



  During the forward stroke of the drive shaft 100, the arithmetic unit T has been moved one step further for chronological numbering, so that the corresponding gears 34 and type arms 244 have been set to a digit that is one unit higher than the previous digit. For purposes of illustration, assume that the previous number was 125 and that the new number is 126 as a result.



  Due to the compulsory connection between the gears 34 in the three machine units, the setting of the aforementioned gears in the middle unit C causes the gears in the side units <I> A </I> and <I> to be set accordingly B. </I> If as a result, at the end of the forward stroke or shortly before, the various hammer mechanisms SA, SB, SC and SD have been triggered in any way, the following booking is made on the credit side of the cash account card, on the debit side of the issuing account card, on the Documents and printed in the Kladde (Journal), .1'26 1 May 6, 7, 25 ".



  All arithmetic units are initially disengaged from the associated transmission wheels 130, namely arithmetic units RA ', RA "and RC' in that they are carried by pins 205 on angle levers 204; arithmetic unit T due to its connection to the arm 270; and all other arithmetic units in that they are supported by the angle levers 164 assigned to them.

   Shortly before the end of the forward stroke of the drive shaft 100, the roller 196 comes to rest on the arm 194 against the pawl 190, as a result of which the member 184 is released with its arm 186, which then moves downwards under the action of the spring 188 oscillates, the angle levers 204 being pivoted in the clockwise direction. The arithmetic units carried by the angle levers 164 remain unactuated, whereas the arithmetic units <I> RA ', RA "</I> and RC lose their support and come into engagement with the corresponding transmission gears 130, and the arithmetic unit T with the transmission gears 262' Engagement is pivoted.

   In the example given, the subtraction gears 156 of the arithmetic unit RA ', the addition gears 152 of the arithmetic unit RA "and the subtraction gears 156 of the arithmetic unit R0' are brought into engagement with the transmission gears 130 and the addition gears 268 of the arithmetic unit T engaged with the transfer gears 262 ', the transfer gears 130 and 262 having been adjusted during adjustment of the collector.

   If now the drive shaft 100 with the crank 140 under the action of the Fe of 146 begins its backward stroke, which movement can be delayed by the engagement of the above-mentioned crank 140 with the arm 142 attached to the drive shaft 100, happens at the led booking example nothing before the arm 134, which is fastened on the collector shaft 36, has been rotated by a three teeth corre sponding angle, the inhibitor rod 136 then comes to rest against the spoke of the gear 34, corresponding to the number "7" which gear will then take part in the subsequent rotation.

   If the arm 134 is rotated weiterge by an angle corresponding to a tooth, the gear 34, corresponding to the date number "6", after further rotation by one tooth, the gears 34, corresponding to "May" and the number "5" and then if two teeth remain, the gear corresponding to the number "2" is driven ben. By rotating the numbers "7", "2", "5" corresponding gears 34 who the corresponding gears 152, 156 and 268 of the arithmetic units RA ', RA ", RC' and T by the corresponding angle through the transmission gears 130 and 262 Thus, at the end of the backward stroke of the drive shaft 100 Fr. 7.25 have been subtracted from the numbers of the arithmetic units RA 'and RC' and added to the numbers of the arithmetic units RA "and T.



  Immediately at the end of the backward stroke of the drive shaft 100, the roller 196 on the arm 194 comes to rest against the inclined surface 198 of the projection 200 on the curved link 184, whereby the connecting rod 202 is caused to rotate the bell crank 204 in the opposite direction - clockwise, the above actuated arithmetic units <I> RA ', </I> Ra "and RC are again lifted out of engagement with the transmission gears 130 and the arithmetic unit T is pivoted out of engagement with the transmission gears 262.

   The arithmetic units <I> RA "</I> and <I> T </I> are thereby returned to their rest positions, but the arithmetic units <I> RA '</I> and RC are initially still in subtraction positions; they who, however, are returned to their rest positions by the pin 216 on the arms 214, which comes to rest against the lower end of the link 218 in the connecting rod 220 at the end of the return stroke of the drive shaft 100, the connecting rod 220 being moved downwards, which then pivots the actuated levers 174 of the arithmetic units <I> RA '</I> and RC, which were set for subtraction, in the direction of the clock to engage the pawls 170, the arithmetic units mentioned in,

      their rest position can be returned.



  At the end of the backward stroke of the drive shaft 100, the arm 70 attached to it is pivoted into engagement with the sloping nose surface 72 on the lever 68, whereby this lever is rotated in the clockwise direction, the end of the same ge with the connector 64 in engagement lowers and the return plate 60 is rotated for engagement with the stop 54 of the release rod 50 of the actuated button "1" and this just-mentioned rod is lowered against the action of the spring 52 and how the is brought into engagement with the angle lever 44, which the relevant Button 40 lifts into its rest position (FIGS. 6 and 7).



  The machine has now been brought back to its rest position and a new business transaction can be booked immediately.



  If a business transaction has been booked by mistake and printed in the machine, this can easily be done by using the so-called return keys F.
EMI0017.0001
   to 8 are corrected. If in that
EMI0017.0002
    In the examples given, the amount to be posted of CHF 7.25 has been mistakenly inserted and printed in the machine, the return key is activated
EMI0017.0003
   Niederge presses which key, as said above, with the so-called plus lever 104 of the arithmetic unit RA ', the so-called minus lever 102 of the arithmetic unit RA "and the so-called plus lever 104 of the arithmetic unit RC' is connected.

   Then the incorrect amount is used again and the drive shaft 100 is actuated, whereby the machine is returned to the position it occupied before the erroneous item was set and printed. Appropriately, the printing of an item booked by actuation of a return key is carried out in a different color than the printing of normal items, for example by the fact that the color bands of the printing devices are switched when a return key is pressed.



  It can sometimes be useful to have control over the cash register if a business transaction affects the cash account. In the embodiment shown, the front arithmetic unit RC ″ of the central unit C is provided for this purpose. This arithmetic unit is of the same type as the other arithmetic units and is controlled from the key table by the keys K + and K-. A depression of any of these keys has no influence on the analysis and return keys, but only allows the arithmetic logic unit RC "to function in any way, so that the amount is also transferred to this arithmetic unit. Here at the key K + is selected when the cash account is debited, and the key K- when the cash account is credited.



  It may also be desirable, in addition to the above-mentioned special arithmetic unit RC ", which indicates the increase and decrease of the special factor, the cash register, one or more other arithmetic units, which the increase and decrease of another special factor or factors For this purpose, it is only necessary to add a key or several keys which are to represent the particular factor or factors mentioned, and one or more arithmetic units corresponding to them for addition and subtraction, which arithmetic units are set in the working position if the buttons are never pressed.



  In the embodiment shown, the fourth row of keys contains an additional key, which is labeled "L". It can be assumed that this key corresponds to the so-called "non-adding" key in ordinary calculating machines; The same is true both with the analysis and return keys E and F and the keys for the special arithmetic units (in the present case the keys K + and K-), and with the keys <I> G provided for specifying the date , H </I> and K are linked such that all of these keys are disabled from actuation when the "L" key is depressed.

   The purpose of this key "L" is that when you press the same all arithmetic units can only be used for letter printing, so that the letter printing can be done on any sheet inserted into the printing devices. Preferably, depressing the "L" key causes the notebook to be disabled. The penitentiary is preferably done in a different color than that usually used, for example by connecting the said key "L" to the parbband changing mechanism to change the band if the button is never depressed.



  Furthermore, the machine can be provided with an additional key each for the arithmetic units RA ', RA ", RB', </I> <I> RB", </I> RC and RC "(in a manner not shown) These keys are each connected to the actuation devices of the corresponding arithmetic unit in such a way that when one or more such keys are pressed, the amount booked in the corresponding arithmetic unit or arithmetic units can be obtained on a booking list.



  The machine can be operated in a known manner by a handle or by an electric motor's rule or another type of motor which is connected to the drive shaft in order to drive it.



  Below is a brief description of the performance of the machine shown. After the machine has been set to indicate a business transaction to be posted, by pressing number keys that indicate the amount of a receipt for the relevant business transaction, of keys that indicate the date, of any other acts that specify a particular Specify the factor or the analysis number of the business transaction in accordance with the accounting procedure, and finally the corresponding analysis key, and by starting the machine, the following is obtained at the same time: A. Accounts. This is done by the machine indicating: 1. a) the amount of net profit and excess, or b) the amount of net loss and loss.



  (The net result is obtained by the amounts a) and b).) 2. the amount of the assets; the amount of liabilities.



  (The capital of the company is retained by the amounts 2. and the like.) 4. The amount of the earnings factors (profit); 5. the amount of the expenditure factors (loss).



  (The amounts 4. and 5 give the company's gross result.) B. Bookkeeping.



  This is done by printing the analysis number, the date (month and day), the amount of the receipt and the control number of the business transaction at the same time on: a) the debit page of an account; b) the credit side of an account; c) the receipt; d) the notebook (journal). C. Control.



  This is done by the machine indicating: 1. a) the sum of the notebook, that is, the chronological total amount of the company or, in other words, the sum of the amounts of the documents posted; b) the total of the bookings on the de bet page; c) the sum of the postings on the credit side.



  (The sums in <I> a), b) </I> and c) are of course the same.) 2. The number of documents (verification control).



  (This number represents the sequence of the business transactions posted).



  <I> D. </I> Control <I> the cash register or </I> some other special factor.



  By pressing one of the keys K + or K-, the arithmetic unit RC "indicates the change in the cash register, and by pressing any other key that represents a different special factor, the change in the mentioned factor can be displayed in the arithmetic unit .



  The machine described can carry out all these details and entries in a single process.



  It should be noted that the embodiment described and illustrated in detail may have modifications without departing from the principle of the machine explained. For example, the collector's gears can be replaced by any other link such as racks. Instead of the tide-type key table, a ten-key key table can be provided. Furthermore, it is not imperative that the machine be of the printer type; it can also only be of the display type. The date can be booked manually.

   The machine can also be provided with one or more correction keys to remove an incorrect number used in the collector.

 

Claims (1)

PATENT CLAIM: Machine for checking through bookkeeping and book closing, characterized in that the machine is equipped with arithmetic units set up for addition and subtraction and also with an adjustable analyzing device corresponding to the business processes occurring in business operations, the latter with arithmetic units What is connected is that when this device is actuated, always two, always the same two arithmetic units intended for the business transaction in question are made ready for operation. SUBClaims: 1. Machine according to claim, characterized in that the Analysiervor direction has an analysis button adjustable in different heights. 2. Machine according to patent claim, characterized in that the analyzing device has an adjustable analyzing lever. 3. Machine according to claim, characterized in that the Analysiervor direction has a number of analysis buttons. 4. Machine according to claim and Un terclaim 3 for economic control, book closing and bookkeeping according to the account-keeping method, characterized in that the analysis keys are connected to the arithmetic units in such a way that when a certain analysis key is pressed, the arithmetic units are put in order in readiness for work, which is conditioned by the Kontograph method. 5-. Machine according to claim and the dependent claims 3 and 4, characterized by such connections between the arithmetic units and the analysis keys that, as is determined by the account graph method, the arithmetic always occurs when a single analysis key is pressed in a certain position set to subtraction for the assets, and at the same time the arithmetic unit for loss is set to addition, or the arithmetic units for loss and liabilities simultaneously on addition, oclEr the arithmetic units for assets and clewinn simultaneously on addition, or the arithmetic unit for passives on subtraction and at the same time the arithmetic unit for profit on addition, or the arithmetic units for assets and passives can be set to addition at the same time or the arithmetic units for active and passive items can be set to subtraction at the same time. 6th Machine according to claim and dependent claims 3, 4 and 5, characterized in that when one of the analysis keys is actuated, another arithmetic unit for addition is simultaneously put into readiness for work in such a way that it is the sum of all basic quotations or, in other words, the sales total of the business transactions indicates. 7th Machine according to claim and the dependent claims 3 to 6, characterized by such connections between tween the analysis keys and an arithmetic unit for addition and subtraction, that when an analysis key is pressed, this is put into a joint venture with the arithmetic units according to dependent claim 4 to find out the difference between profit and loss or Assets and liabilities, that is, to enter the company's bottom line. B. Machine according to claim and the dependent claims 3 to 7, characterized in that the whole is formed in such a way that, at the same time as pressing a calculation key, the amount given on the receipt of a business transaction is set to be registered in the arithmetic units This amount is also set to poor types that belong to two or more printing devices, and that such precautions have been taken that when the machine is started, the amount of the document, the order number of the business transaction, its date, the analysis number of the business process or another Description is printed on the receipt, on the debit side of an account sheet, on the credit side of another account sheet, as well as on a basic listing list (journal) specially attached to the machine. 9. Machine according to claim and the subclaims 3 to 8, characterized in that it is provided with one or more keys which are connected to one or more special arithmetic units intended for addition and subtraction in such a way that the latter when actuated one of these Ta most simultaneously with the arithmetic units mentioned in the above claims are put in readiness for work, for the purpose of entering the increase or decrease, which one or more special factors are exposed to. 10. Machine according to patent claim and sub-claims 3 to 9, characterized in that such arrangements are made that the key table is provided with at least one return key to counteract the arithmetic units. The sense of being able to influence it with the corresponding analysis keys, the whole thing in such a way that, by pressing the relevant return key, an error caused by pressing an incorrect calculation key or analysis key or any other key can be corrected at any time after the error has been discovered and that devices are provided to enable the incorrect information to be noted again, but in a different color from that usually used. 11. Machine according to claim and the dependent claims 3 to 10, characterized in that corresponding collectors of each machine unit are provided with gears that are attached to the common shafts extending over all machine units that when moving one of the collector gears in any a machine unit this movement is transferred uniformly to the corresponding collector gears in the other Ma machine units.