DE731806C - Adding machine - Google Patents

Description

Calculating machine addendum to patent 697 151 The invention relates to a calculating machine with a memory device according to patent 697 151.

According to the invention the machine according to the main patent is thereby improved that they are provided with a device for rounding up a counter which, depending on the memory deletion process, automatically becomes effective comes. As a result of this facility takes place automatically without any thought on the part of the operator rounding up the lowest digit to be noted, so that miscalculations as a result Overlook this rounding up can be avoided.

In known devices, this advantage was not achieved because rounding up could only be achieved by pressing a special key.

In other known machines, the multiplying process involves a Rounding up the lowest computing point automatically by adding the four lowest Decimal places of the product formation adder for itself from its own extinguishing device can be deleted during the multiplication process, whereby a tens transmission of the highest decimal place struck off to the lowest value place if the wheel of the highest decimal place struck off by the deletion process is twisted by five units. The rounded up product value is then by means of its own extinguishing device on a product adding or storage unit transferable. The rounding up process and the latter transfer take place automatically, however, at different times, i.e. H. through various Z-machine aisles.

In addition to the additional arrangement of an extremely complicated extinguishing device for the rounding up, the tens carryover has to be changed there so that the tens carry over after just five units. takes place, # v, for which the construction of the machine is involved elt. According to the invention, the rounding up takes place during the deletion process of the storage unit depending on your extinguishing system of the storage unit by five units are screwed into the rounding point by the extinguishing device.

This avoids changing the normal ten circuit and also get a very simple structure of the rounding-up means itself, by simply attaching a rack to the extinguishing device, which is connected to a five units rotating wheel meshes. The arrangement of a special Deletion device for deleting the point to be rounded comes in with the invention Elimination.

In the drawings, for example, is an embodiment of the subject matter of the invention shown.

Fig. I shows a diagrammatic representation of the value memory described in patent 697 7 151 with the device according to the invention, seen from the front right of the machine.

Fig.: And 3 show a detail in a graphical representation, namely, Fig. 2 shows the I'ad ldz releasing the five units in an enlarged manner l aßstaben in the direction of the arrow a. of Fig. i and Fig. 3 the same wheel, however seen in arrow direction b of Fig. r.

Fig. D. shows a perspective view of the invention according to modified extinguishing element, the parts being box-like for the sake of clarity are drawn apart.

Fig. 5 shows a diagrammatic representation of the five units transmitting wheel on a larger scale, with the same supporting and securing Parts are drawn in the withdrawn position for the sake of clarity.

Fig. Ö shows a section along the line - \ "I - \" I of Fig. I, namely seen in the direction of arrow c and memory in the actual position.

Fig.; - inclines a view according to Fig. i on an enlarged scale extinguishing element in action or its position after completion Transfer of the five units used for rounding up.

Fig.8 shows a plan view of the extinguishing member in the direction of the arrow (1 of Fig. 7. Figs. 9 to 15 show schematically the positions of the counter slide for the numerical examples mentioned later.

Fig. 1h shows a device for Waliltveisen. Shutdown of the rounding device.

Fig. 1; shows an arrangement in which the introduction of the five Units is effected by lever and rack.

The parts which in the following correspond to the main patent, are finitely assigned to the reference numbers of the main patent. whereas the invention Parts are assigned the reference numerals from i 4.o upwards.

For a better understanding of the invention, the operation is briefly repeated recalled when totaling the products according to the main patent.

After the first product in the result set: ihlwerk R_t- (Fig. C).) Has been calculated is, the Resultatzühlwerl: Rx is cleared by pressing the sum key 18 and at the same time the value contained therein is transferred to memory 5 (_ Fig. i).

The second product is then calculated. Then through again Pressing the Sunnnier key 18 deleted the first product contained in the memory and added to your second product in the result counter Rx, whereupon this shows the sum of the two products. By pressing the Suinniier button again 18 is (read the result counter deleted again and at the same time that in the same Transfer the sum of the two products contained in the memory 5, etc.

The memory 5 is to the movable counter sales slide B-r (Fig. C)) Arranged in a stationary manner, and values are transmitted in every slide position from i result counter Rx to memory 5 and vice versa t possible.

So I never want the last decimal places of a calculated product don't add up. this is how you move the counter slide B: r replicate so many digits right when you want to wipe it off. The one above the lowest point of the storage facility Number roller axes 556x protruding to the right (Fig. c »are then no Storage wheels 9 opposite, and when deleting the result counter R.r is only the value is transferred to the storage unit j. its decimal places storage wheels 9 face.

When the last decimals are crossed off, however, it has not been taken into account whether the last registered number (that is the number opposite to the memory wheel 9 located furthest to the right) had to be increased by i or not. For this purpose, the following device according to the invention is now made: To the right of the right storage wheel 9 (Fig. I), a ten-tooth gear wheel i4.o of the same size as the storage wheels g is arranged. This wheel is shown with notches 141 (Fig. 5), in which, in a known manner, a hole 12 influenced by a leaf spring 14 (Fig. 3) and located in a hole in the strip 8 engages. Compared to the other wheels 9, this wheel does not have a zero stop or a tooth gap that is partially enlarged by removing half a tooth width. An additional gear 1d: 2 (Fig. I) is arranged under your gear ido. In the rest position of the memory extinguishing rack 63 , the gear 142 is in such a way that the larger tooth gap 1d3 (_Fig. 2 and 3) created by removing a tooth half the width of the tooth is opposite your wheel r.lo and does not prevent wheel 140 from moving into the Rotate the working position of the memory 5 freely. The storage clearing rack 63 (FIGS. 1, 4, 4 and 7) is provided at the right end with a straight extension 144 at the level of the teeth of the storage clearing rack 63. The gear wheel 142 (Fig. A and 3) has three flattened teeth i45 a, i-45 b and i45 c on the opposite side of the wider 'tooth gap 143 described above, of which the teeth 145 b and 145 c are only flattened to half the tooth width are, while the tooth i45 a. is flattened across its entire width. In the rest position of the storage extinguishing racks 63, the flattened teeth 145 a, 145 b and 145 c rest on the extension 144 of the storage extinguishing rack 63 and thereby prevent unwanted rotation of the wheel 142 Pins 146 and 147 slidably attached to a small rack 148. A tension spring 149 hangs on the spring pin 150 of the storage hole rack 63 and pulls the rack 148 to the right in its bent spring hook 151 (Fig. 4) so that it rests on the guide pin 147. In this position, the teeth of the extinguishing rack 63 and 148 (Fig. I) are aligned. At 144a (Fig. 4) two teeth have been removed from the storage extinguishing rack 63. Two bent teeth 155 a and 155 6 of the toothed rack 148 protrude into the tooth gap 144 a thus created. The purpose of this facility is specified later.

If the storage clearing rack 63 is moved to the right (Fig. 7) during the erasing process of the storage unit 5 by pressing the summing key i8 (Fig. 9), the small rack 148 also moves to the right. During this clockwise movement of the memory clearing rack 63, the gear 142 initially stands still until the first tooth 152 (Fig. I) of the small rack 148 hits against the tooth 145b of the gear 14a, which is half the width. The gear 142 is rotated counterclockwise by 51/2 tooth pitches (see Fig. 7). The gear wheel i4o is rotated by five teeth in a clockwise direction. The pin 153 of the rack 148 pushes against the bearing piece 154 seated on the rear wall 3, as a result of which the movement of the rack 148 is limited. Since it is difficult in manufacture to let the extinguishing rack 63 make this precisely delimited path, the storage extinguishing rack 63, as shown in FIG. 7, is allowed to move up to half a tooth pitch further to the right. The tension spring 49 connecting the two racks 63 and 148 is tensioned here. The wheel 142 is not turned any further, because in this position the two are bent to the side of the storage extinguishing rack 63 (Figs. 4 and 8) and, as already mentioned above , into the wider tooth gap 144a created by removing two teeth of the storage extinguishing rack 63. protruding teeth 155 a and 155 b of the rack 148 with the wheel 143 in engagement. The other erasing wheels 65, on the other hand, are rotated further ineffectively during the above @ mentioned further movement of the storage extinguishing rack 63 by half a tooth pitch, which can happen unhindered, since the wheels 9 of the storage unit 5 are turned back to o and in this position the wheels 9 are the result of removal of a tooth at half the width of the tooth, the wider tooth gap 9a. facing the erasing wheels 65 and allowing them to pass freely. By rotating the gear 140 in the direction of the lir pointer, the wheel i (Fig. 9) opposite this gear wheel i4o, together with the number roller axis 556x and number roller 554x firmly connected to it, is also rotated forward. At this point in the number roll 554x before the transfer z. B. the number 5 or a number greater than 5, then by rolling in the 5 by means of the wheels 42,140 from the deletion process of the memory 5 from a tens transfer to the next higher number roll 554x, z. B. for number roll 554x1 (Fig. 9), prepared, ie the last number registered by memory 5 is rounded up.

The following numerical example shows the mode of operation again briefly: It is assumed that the individual products consisting of the following factors and their total sum are to be calculated 1.36 m at the price of 1.44..A,? (Per meter, 7.654 kg for Prices from 3.40 R. £ per kilogram, 1.5 1 at the price of i, i4, f (per liter. Any values in the result and revolution counter Rx and Ux (Fig. 9) can be canceled by pressing the delete keys 7x and Eight times deleted. 1.44 is set in the keyboard Tx on the right. By pressing the plus key i 5 times, the machine can be made six revolutions in the basic position of the counter slide Bx Pressing the plus key 15x again causes the machine to make three revolutions The plus key i 5 times lets the machine make a turn. The result counter Rx- now shows the product 1.44 X 1.36 = 1.9584.

Since, as mentioned above, it is customary to only calculate whole penny amounts, the product is rounded up in the second place after your decimal point. For this purpose, the counter slide Bx is left in its position assumed by the termination of the above-mentioned multiplication, which is shown in Fig. 9, in which the number roll 554-i- showing the number 8 of the product 19584. or whose wheel i is opposite the wheel i40 of the memory 5. The dash-dotted line YI 'inclines in Fig. 9 the correct position of the memory 5 all. Now the memory or Sulnmier key 18 is pressed. First, a memory erasure process takes place, by means of which the memory erase rack 63 (Fig. I) and thus the small rack I4.8 is moved to the right. The erasing wheels 65 rotate counter-clockwise, as does the gearwheel 142. Since no value was contained in the storage unit 5, the number roller aclises 556x (Fig. 9) and the number rollers 554.a- are not rotated further with the exception of penultimate decimals (number roll 55-1 - r :), in which a 5 is added by turning the gear 14.2 or i40, whereby the 8 becomes a 3 (Fig. to). Since the number roll 554x_ exceeds the q here , a tens transfer has been prepared for the number roll 554a-1 through the known tens transmission in the result counter Ra:. As a result of the execution of the tens transmission following the memory deletion process, the value 1.9634 (Fig. To) will appear in the result counter Rx.

This value is saved by pressing the save or sum key again 18 transferred to the storage unit 5 by deletion in the result counter Rx. The 4 in the last decimal is deleted and is lost because it is not a memory wheel facing. The 3 rolls into the gear wheel i40, which is without influence, because the same thing, as shown above, has no zero gap and always has the Returns value 5. The 6, c) and i are transferred to the corresponding memory gears g.

The next product is now calculated. For this purpose the counter slide B: r- is brought back into the basic position. 3.40 is set in the keyboard Tx on the right. Then it is multiplied by 7.654. Since the counter slide Bx for the purpose of rounding up is already in the appropriate position after multiplication has taken place, as can be seen from Fig Result counter Rx standing new product 26.0236o including the additional 5 is added in the following way: --6.0236o are in the result counter Rx- of the product (Fig. ii) 1.96 first product from store 5 -f- 5 Rounding of gear wheel i40 27.9886o (- - M. 12). Since the number roller 554-r-, which is opposite the gear wheel t40, only contained a 3, it is only switched to 8 by the value 5 introduced by the wheel i40, as can be seen in Fig. I2. As a result, as is correct, there is no rounding up to the next higher number roll 554.i-.

By pressing the memory or solarization key 18, the value is now available 27.98 'into memory 5, while the last three decimals 86o are lost.

The third product 1.5 1 at a price of 1.14 per liter is calculated as above. Rx 1.71o is obtained in the result counter. The counter slide was moved one point to the right from its home position (Fig. 13).

\ unniehr the memory or Stuniniertaste 18 is pressed again whereby the ini memory 5 value given to your ini Resultatzählwerk Rx property value 1,710 with introduction of an additional 5 is added in the following manner 27.98: i, 7 to standing in the result counter Rr '' Value (Fig. 13) -E- 27.98 value in memory - 5 rounding of the gear wheel i40 2c4695 (21. bb.14). As can be seen, there is no rounding up to the next higher number next to the position of wheel i40.

Now you press the storage or totalizing key 18 again, whereby the value 29.69 is transferred to the storage unit 5, while the 5 in the third decimal place to the right of the comma is lost.

If you now move the counter slide Bx to the basic position and presses the memory or. Summation key 18, the value 29.69 appears (Fig. 15) ini result counter Rx. In this case, no 5 is introduced at the front wheel 140, since this Wheel in the basic position of the. Counter slide Bx none Wheel i or there is no number wheel 554x opposite.

So when the transfer is made from memory 5 to the result counter Rx from the wheel i4o always put a 5 in the position opposite it.

Since this is sometimes undesirable, an embodiment is shown in Fig. 16 in which the wheel 140 can optionally be switched off.

For this purpose, the part 8 of the memory 5 is provided with a bracket-like recess 157. A bolt 158 is riveted into part 8. On the same, a bush 159 is rotatably and displaceably mounted, which is also rotatably and displaceably mounted in the part 7. On the socket 1 59 , the wheel 140 and a button 159 a are attached. The bush r59 is provided with two ring notches 16o and 161, into which a wire spring r62 attached to the part 7 is able to enter, which holds the bush 159 and thus the wheel 1.4o in the desired position.

If the spring 162 is in engagement with the notch 161, so comes the wheel 140 meshes with the wheel 14.2, and consequently no transmission takes place of five units on the result counter Rx. If, however, the socket 159 with shifted the wheel i4o so that the wire spring 162 engages the notch 16o is, the wheel 140 comes into engagement with the wheel 1.42, and consequently takes place then a transfer of five units to the result counter Rx. Around the wheel to secure against rotation in its respective position, can instead of the ball 12 (Fig. 5) a detent spring, not shown, can be attached to the Tei18, which directly cooperates with the teeth of the wheel 140 in its two positions and so the same secures.

It is not absolutely necessary that the term forming the value 5 consists of a wheel 1.42, but rather it can be any element or Gearboxes are used for this.

In Fig. 17 z. B. an arrangement is shown in which the value 5 is formed by leverage.

There is no particular one on the memory clear rack 63 for this purpose Rack 1.48 attached, but there is a lever 163 hinged to it, on its the other end of a short rack 16.4 is articulated through the pin slot connections 165, 166 and 167, 168 is slidably mounted. The pivot axis 169 of the lever 163 is selected so that the arm of the lever 163 connected to the rack 164 during the movement of the memory erasing rack 63 only covers a distance that corresponds to the Wheel 140 granted a rotation of five units. This arrangement can of course also be taken so that instead of the rack 164 the upper end of the lever 163 is designed as a toothed sector which meshes directly with the gear 140 comes.

If you do not want value storage, the drive of the Rounding-up gear also depending on another operating process, such as the deletion process of the memory 5 take place. If you think z. B. all wheels 9 and Erase wheels 65 continue, so only a short piece of the memory 5 remains to carry the Wheel 140 left as well as parts 142, 63 and 48 - you then make a connection between the rack 63 and the usual extinguishing rack of the revolution counter here, when the delete key is pressed 7 times on the revolution counter, the rack will be 63 moves, and it is over the parts 142 and 1.40 or, if the embodiment is selected according to Fig. 17, over the parts 163, 164 and 140 a 5 in 'the result counter Rx brought without the actual memory needing to come into use.

In a similar way, the rounding gear can be driven depending on any operation of the machine, such. B. also from the keyboard delete key 6 x or any other key.

Claims (5)

PATENT CLAIMS: i. Calculating machine according to patent 697 151 with one device for rounding up a counter, characterized in that the device for rounding up a register location depending on the memory erasure process comes into effect automatically. 2: Calculating machine according to claim i, characterized in that that the rounding-up gear to the right of the unit's memory location of the store of value or the units digit of the counter slide in its basis in is arranged stationary with respect to the same. 3. Calculating machine according to claim i and 2, characterized in that: the transmission consists of two of the memory erase member (63) driven gears (i.4o, 1.42) consists. 4. Calculating machine according to claim i to 3, characterized in that one wheel (142) of the rounding-up gear with one it in the rest position and part of the movement of the quenching element (63,) is provided against rotation locking device. 5. Calculating machine according to claim 3, characterized in that a drive member (148) for the rounding-up gear is slidably connected to the extinguishing member (63) and is held in such a position to the extinguishing member (ö3) by Iiraft -. that the instinctual zones of both members usually act at the same time. H. Calculating machine according to Claims 1 to 5, characterized in that the extinguishing element (63) is designed (part 144) in such a way that it remains ineffective in the first part of its movement on the locked wheel (142) of the rounding-up gear, and that with your Extinguishing member connected drive member (14S) is arranged in such a position to the extinguishing member (ö3) that it is effective for me on your last part of the movement of the extinguishing member (63) on the rounding-up gear (142, 140). ;. Calculating machine according to Claims i to 6, characterized in that part (144a :) of the drive zone of the extinguishing member (E13) is removed and is replaced by a drive zone (i 55 a, 155b) of the drive member (14 <8). Calculating machine according to Claims i to 7, characterized in that the movement of the drive member (F: 18) is limited by a stop (153, 154) with respect to the movement of the extinguishing member (63) and the stop is arranged so that when the Drive member the wheel (142) is in step with the drive zone (155a, 155b) of this drive member protruding into the remote drive zone (144a) of the extinguishing member (63). Calculating machine according to Claims 1 to 4, characterized in that the wheel (14a) is provided with a zero gap (143) which is opposite the wheel (14o) in the rest position of the wheel (i.12), uni one: rotation of the the latter to make the former ineffective. 1o. Calculating machine according to Claims 1 and 2, characterized in that the rounding-up gear consists of a lever (i63) with unequal arms which is connected to the extinguishing element (63). i i. Calculating machine according to claim i, characterized in that the upgrading gear can optionally be switched off.