DE570451C - Calculating machine with printing mechanism, especially for calculating the content and value of round wood - Google Patents

Description

Calculating machine with printing mechanism, in particular for calculating the content and values of round wood In the known calculating machines with printing mechanism for Calculation of the volume and value of round timber and similar purposes (patent specification 170: 28: 2) the backlash is compensated and the calculated is rounded off Products on the type values through a common device in the form of a round wheel, by pivoting a lever with planetary wheels against a vain pawl is rotated and transmits its rotary motion to the type wheel to be corrected. This facility is not sufficient to ensure correct and uniform results in all cases To achieve pressure.

The invention avoids this disadvantage in that, in addition to the device for rounding off the calculated values, a device, which is independent of this and responds earlier in time, is provided to compensate for the backlash. The latter can consist, for example, of a spring that permanently ensures rapid engagement of the gear parts - it can also be ordered in a ratchet, in which an associated switch hook engages after ZD setting of the factor wheels and moves by spring force, switches off the backlash. These facilities can be found on the product line, i. i. on the gearwheel, which transmits the voice of the logarithms of the set factors. or they can be arranged on the type wheel for the products or on the intermediate wheel between the said wheels.

In connection with the marked backlash deactivation you can for rounding off the products (contents) facilities with movable or with a round wheel can be selected. In the former case, after the lost motion is switched off, similar to the known calculating machines, by pivoting a lever a rotation of the round wheel up to the stop of a tooth against one meanwhile engaged ratchet and thus a corresponding rotation of the type wheel causes; in the second. When the backlash is switched off, the round wheel becomes the case locked, and the size of the fillet is determined by the length and shape of the pawl opposite tooth determined by the round wheel. The size that follows The pivoting of the pawl can be via an epicyclic gear or via the overhung Bearing intermediate gear can be transferred to the type gear.

The Enrichtungen with movable as with locking Abrundrad can with a Totga, ngeinrichtung be connected is that operates either by a spring or by a ratchet with Schaltliaken,, leicligültig whether the Totga ge CY -. N inrichtung on Produktenrade or the gear unit from Ty en-, P rade is arranged. Only if the rounding is conveyed by the overhung intermediate gear can the device for eliminating backlash not be arranged on it.

Depending on the choice of devices for one as well as the other function, numerous embodiments are possible, of which the enclosed figures illustrate the characteristics of the invention: Fig. i shows an embodiment in elevation, Fig. 2 shows a side view of Fig. i Fig. 3 shows a second embodiment in elevation, Fig. 4 shows a side view of Fig. 3, Fig. 5 shows a third embodiment in side view shortly before the start of the lost motion deactivation, Fig. 6 the same arrangement during the lost motion deactivation, Fig. 7 the same Execution during the rounding, Fig. 8 a fourth embodiment. in elevation, Fig. 9 is a side view of Fig. 8.

For a better understanding of the operation of the subject invention will be given io an elevational view of the per se known means for adjusting the length and the diameter as well as for the formation of the results in Fig b..

Fig. Ii is a side view of the length dial (and the diameter).

Since the facilities shown here are for all those described below Embodiments are the same, they are explained in advance.

The three type printing wheels for length 2, diameter 3 and content 4 are arranged on the common axis i (Fig. Io). With the length type gear 2- the gear 2-a is firmly connected, which is in engagement via the gear 511 on the axis 8 with the gear 5b on the axis 18 and the epicyclic gear 511 to 5f .

With the diameter type wheel 3 , the gear 3a is firmly connected, which is connected via the gear 59 on the axis 8 and the gears 511, 51 on the axis 1 8 with the gears 51 to 50 of the epicyclic gear on the axis 1 8 ' .

Next to the gears. 5b and 51 are each a dial arranged 5c for the length and the diameter 5k on the axis 18 whose teeth a Controller Tool 22 'faces, which is pivotally mounted to the Achse2o and of the cam 35' is controlled on the axis 25th

The mode of operation of this gear is as follows: If the gear 5b with the adjusting wheel 5c on the axis 1 8 is rotated by the magnitude log 1 , the type wheel 2 and the wheel 5d of the epicyclic gear are also rotated by the magnitude log 1. The disk 6a thus receives a rotation from the epicyclic gear. which corresponds to the size % log 1.

If the gear Sh is then rotated with the diameter setting wheel 5k by the amount log d , then the type wheel 3 also rotates by the amount log d; on the other hand, the wheel undergoes 51 of the planetary gear wheel 51 by the rotation of the Gr "Oesse.:. 2 log d The disk 6a so that receives a further rotation of the quantity log d The sum of these rotations 1/2 log 1 + log (1 - the Zalinrade 6b , which is firmly connected to the disk 6a, has been informed that double the amount of rotation, i.e. 2 (1/2 logl + Io d) = - log 1+: 2 logd 2 ZD on the gearwheel 6c ( axis has transmitted 1 8). with this Zalinrade the Produktenrad 6d is so fixed to that log to the constant size appears twisted, so that with the setting of the length 1 and the diameter d, the gear 6d transmits via the gear 6e to the wheel 4a fixedly connected to the type wheel 4 the movement quantity log corresponding to the content. If the axis 25 (Fig. Ii) is rotated after setting 1 and d , the two cam disks 35 ' seated on this axis release the setting hooks 22' opposite the setting wheels 5c and 51 ' , through their engagement by means of the spring 27' in the toothing of the setting wheels 5c and 51 ' then the exact setting to the dimensions 1 and d is effected.

With the large number of gears required to adjust the dimensions and to form the products, a very significant backlash in the transmission is inevitable. The resulting errors in the result can vary in size. If smaller dimensions are set after larger dimensions have been calculated beforehand, the result may be a product that is too large; conversely too small a product can result if previously smaller exhaust measurements were charged.

Similarly, the results are printed above or below the line pressure depending on previously larger or smaller waste were set measurements.

The calculation errors caused by the backlash can only be compared with the known. Facilities avoided el when behold the Abrundrad, the overall n by the pivoting of a lever with planetary gears rotate a ratchet 2 tle is in the correct position relative to the ratchet before DES Abrundvorganges .zChon located. No provision is made for this case to apply.

The uneven printing of the results is caused by the known devices then% -erliiii (lurt, if the rounding process takes place so slowly that the Type body not beyond the correct line position, l # esciiieti (is lert. Since in practical use the rounding off is only a fraction of a second takes place, such unwanted movements of the type body usually not avoided.

In all Ausführtin-sformen, whether the rounding of the intermediate values of Z, products init means of a movable or a fixed Abrundrades happens) has the logaritliiiiiselie tooth division of the Abrundrades and demeritauch the arrangement of the Ty s on t '3 in known manner p thy Type (#nrade for the products (content) according to Z ## ical values, i.e. after half the total value of two consecutive type numbers. If, for example, the numerical values ... to, 11, 12, ... 25 , 26,: 28, ... 5o, 5.2, 56, ... 92, 96, ioo ... , then the round wheel receives a logarithmic division according to the intermediate values of these numbers, i.e. 9, 8, 10, 5 , 11 .. 5, ... 24, 5, 25, 5, 27, ... 49) , 3 1, 54, 94, 98, io5, ... , And the types io, 1 1, 12, on the content type wheel stand at the tick marks 9, 8 or io, 5, 11, 51 ..., whereby it is assumed that the device of the rounding device is set up for backward movement of the type wheel. If the rounding device is set up for a forward movement of the type wheel during the rounding process, then the type values must be set to the tick marks of the upper intermediate values,% - ground.

According to Fig. I, three type printing wheels 2, 3 and -t are arranged in a known manner on -erneinsainer shaft i z5, the first of which is used to set the e # lengths and the second to set the diameter of the logs to be calculated. The two types of pressure, P wheels 2 and 3 are coupled by the previously described gear 5, 6 with the Tvpdruckrad, 4 so that this indicates the content of the setting of the wheels 2 and ', according to length and diameter is determined. The devices for eliminating the t'ki backlash and for rounding off the numerical values available on your type wheel are shown at 2 p on your type printing wheel 4. This is through a gear 7 with a seated on a shaft 8 gear 9 which is connected via planet gears io and gears ii and 12 with the gear 13 for the product of the. # Lultiplikationsgetriebes 6 in a known manner and on the way of this transmission the setting of the type printing wheel 4 causes. The backlash is eliminated by a spiral spring 14 which, with its inner E-ride, is attached to the hub r5 of the gearwheel o, with the outer end on a housing 16 fixedly arranged on shaft 8 , and thus permanent, rapid engagement the gear 9 with the gear 7 as well as the planet gear io with your gear i i and the gear 12 i-iiit the gear 13 secures. The round wheel 17 sits on a shaft 18 and is firmly connected to your gear 13. It has teeth of various shapes, each of which determines the size of the rounding (Fig. 2). The waste rounding transmitting Drehliebel is mounted on a shaft 2o; One lever arm carries a tooth or hook 22 that works with the teeth ig of the wheel 17 , the other lever arm 23 interacts with a control cam 26 seated on a shaft 25 by a roller -94 and is pulled clockwise by a spring 27. Fixedly connected to the lever is a Zalin segment 28 which engages in a gear 29 lying on the shaft 8. The latter is coupled to the gear wheel 12 by a gearwheel'3o and U # mlaufräder31 via the planetary gears io and the gearwheel ii.

The operation of this device is as follows After the length and the diameter of hand are roughly set, with the rotation of the shaft by the seated on this shaft, not shown here cam initially in known manner, the exact adjustment of the dimensions and due to the pulling action of 25 Spring 14 also brings about the exact setting of the content on type wheels 2, 3 and 4, which has been freed from backlash. The position which the lever 23 assumes with the roller 24 in relation to the cam at this moment. is shown in Fig. 2.

With the further rotation of the shaft 25 , the cam 26 releases the lever 23 so that it is pivoted clockwise by the spring 27 until the hook 22 hits the flank of the opposite tooth ig of the stationary rounded wheel 17 Rotary movement is transmitted proportionally to the gear 29 by toothed segment 28 and passed on from here through the circulation gears 3 1, the # gear 9 and the gear 7 to the type printing wheel 4. The rotation ( rounding) of the type printing wheel thus corresponds to that of the hook --12 compared to the rounding wheel. 17 distance covered.

According to FIGS. 3 and 4, the product wheel 13 is coupled to the toothed wheel 7 by a toothed wheel 322 which sits on the hollow hub 33 of a lever 34. The inside diameter of the hub 33 is significantly larger than the diameter of the shaft 8, so that it can be radially displaced with respect to this, together with the intermediate gear 32. One end of the lever 34 is articulated to the lever 23 which is pivotable about shaft 20 and which interacts with a cam disk 35 seated on shaft 25 by means of a roller 2-4. The other end of the lever 34 is guided through a joint member 36. Lever arm 21 in turn carries a hook 22 which cooperates with the teeth 9 of the 1 Abrundrades 17th A ratchet wheel 3 7, which is controlled by a switch hook 38 , is firmly connected to the factor wheel 13 and the round wheel 1 7. The latter is articulated to a two-armed lever 39 mounted on shaft 20 and secured in the position shown in FIG. 4 by a spring 40 and a stop bolt 41. The free arm of the lever 39 is connected by a tension spring 42 to a lever - # 3 rotatable on a shaft: 2o, which is controlled by a cam 45 via a roller 44.

The mode of operation of this device is as follows - After, as in the previous embodiment with the rotation of the shaft 25, the precise setting of the dimensions on the type wheels: 2 and 3 and thus the drawn lever position 43 with the roller 44 opposite the cam 45 (Fig. 4) is reached, with the further rotation of the shaft 25 up to the starting position by means of the cam 45, the lever 43 is initially pivoted counterclockwise. This movement is transmitted to the lever 39 by the spring 42, so that the locking hook 38 grips the closest tooth of the ratchet wheel 37 and rotates the latter, eliminating the deadlock. This movement is followed by the round wheel 17 and the gears 13, 32 and 7; the exact setting of the type wheel 4 is then also achieved. During these movements, the intermediate wheel 32 assumes the position shown. After eliminating the backlash curve 35 releases the lever 23 so that it swings clockwise under the influence of a spring (not shown for the sake of simplicity) and engages the hook 2.2 on the opposite tooth flank of the round wheel 17 . Here, too, as in the example described above, the 21st round wheel stands still during the rounding process. The pivoting movement of the lever: 23 follows the lever 34 and with it the gear wheel 32, z # which rolls on the gear wheel 7 and thus transfers the rounding movement to the type wheel 4. This movement is so small that the gears 32 and 7 do not disengage despite the radial displacement of the first. At the end of the revolution of the shaft 25 , lever 23 is lifted into the rest position by curve 35 , while the levers 39 and 43 return to the starting position under the influence of a return spring, not shown.

According to Fig. 5 to 7 , the product wheel 13 is coupled to the gear wheel 7 of the type printing wheel 4 via an intermediate wheel 46 seated on the shaft 8. The product wheel 13 is firmly connected to a ratchet wheel 47 and the round wheel 17. The ratchet wheel 37, which can be rotated with respect to the ratchet wheel 47 to compensate for the backlash, has a recess 48 into which a bolt 49 carried by the ratchet wheel 47 engages. A spring 5o is clamped in the recess 48 and tries to press the bolt 49 against the driver edge 51 of the recess 48 (FIG. 5). Two rotary levers 52 and 53 are mounted on shaft 18, which coincide in Fig. 5 , while in Fig. - For the sake of clarity, only lever 53 is shown. The levers 52 and 53 each carry a pawl 54 and 55, which are loaded by springs 56 and held in the rest position shown in FIG. 5 by fixed stops 57. Pawl 54 operates to the exclusion of the lost motion serving wheel 37 and pawl 55 to 47. with the Abrundrad 17 fixedly connected ratchet lever 5: 2 is controlled via a roller 58 through a cam 59, lever 53 via a Rolle6o by a cam 61 . The two-armed lever 2 1, 2, 3 is in turn mounted on shaft: 2o, one arm of which carries the hook: 2: 2, the other arm of which is controlled by a cam 62. Curves 59, 61 and 6: 2 sit on shaft: 25. This device works as follows: In the rest position of Fig. 5 , the levers 52, 53 and the associated pawls 5 4, 5 5; Both ratchets are out of engagement with the associated ratchet wheels, the same hook: 2: 2 with the round wheel 1 7. When setting the length 1 and the diameter d, the amount of movement corresponding to the sum: b log recorded by the switching gear 37 connected to the setting gear, transmitted by the spring 5o and the bolt 49 to the switching wheel 47 and from here via the round wheel 17, the product wheel 13, the intermediate wheel 46 to the gear wheel 7 and the type wheel. At the beginning of the rotation of the shaft: 25, as in the previous embodiments, the precise setting of the type wheels for the dimensions is actuated first. When the shaft 25 continues to rotate in the direction of the arrow, the backlash is eliminated. First, lever 5: 2 is released by the curve 59 , so that it pivots under the influence of a spring (not shown) in the position of Fig. 6. The pawl 5-1 freed from the stop 57 jumps under the influence of its spring 56 into the closest tooth of the switch 37 and rotates the same until the backlash is switched off. The ratchet wheel47 and with it the round wheel 17 as well as the product wheel 1 3 are taken along through the intermediary of the edge 5 1 of the recess11-1 48 and the bolt 49 attached to the ratchet wheel47; the rotary movement of the product wheel 13 is transmitted to the gear wheel 7 and the type printing wheel 4 via the intermediate wheel 46. After the end of this movement to eliminate the backlash, the cam plate 62 releases the lever arm 23 and a little later the cam plate 61 releases the lever 53 , so that these two levers are now also swiveled counter-clockwise under the action of springs (not shown) . , Z., Here, hook Z, 22 is placed on the opposite tooth of the round wheel 1 7 , while pawl 55 jumps under the influence of its spring 56 into the ratchet wheel, which is firmly connected to the round wheel 17 - [7 and this rotates for so long. until hook 22 stops the movement on the steep tooth flank of wheel 17. This rotation zn li-, of the wheel 17 is transmitted by the wheel 1 3 , which is firmly connected to it, via the gears 46 and 7 to the type eilrad4. To, P "e, e, the ratchet wheel 37 locked by the pawl 54 does not follow the rotary movement of the round wheel 1; 7 in this case, but the spring 50, which is mounted in the recess 48 of the ratchet wheel 37, is tensioned by bolts 49 ( Fig. 7) During the completion of a single revolution of the shaft 25 , the curves 59, 6 r and 62 return the flebel 52, 53 and 23 to their starting position - the wheels freed from the ratchets 54 and 55 37 and 47 are twisted together into the rest position and Fig. 5 by the relaxing spring 5o 'so that the device is ready for the next operation.

In the embodiment shown in Figs. 8 and 9 , the backlash is eliminated, as in the first described.: \ Tl. #, Fiilirun, # sforiii, a tensioned spiral spring, here with its inner end on the fixed shaft 8 ', init your outer end engages your Gefi.-itise 16'. Next to the latter, Z is firmly attached to this one. about the axis 8 ' rotatable, the gear wheel g', which via the gear wheel - keeps the entire gear connected to this permanently in rapid grip. In order to round off the contents to standard values, an epicyclic gear with a movable round wheel is arranged on the axle 18. With the setting of the dimensions, the gears 6, 11 and, the planet wheel io the sum: log Transfer corresponding movement quantities to the product wheel 13, which is firmly connected to the round wheel 17, to the intermediate wheel 9 and the gear wheel 7 . When the shaft 2 5 z # is rotated, first, as in the other embodiments, the exact setting of the dimensions and the content on the type wheels is actuated, then lever 23 is released from the cam: 26 and its switch hook 22 by a spring, not shown l "euen the round wheel 17 pressed in. Somewhat , t # later, the cam 61 releases the round lever 53 which is firmly connected to the gear 30 and which is now coupled to the round wheel 17 via the planet wheel 31 and the axis 32 ' so far by the constant tension exerted by the spiral spring on the axis 8 ' , counter-clockwise movement, is pivoted until the switching beacon 22 touches the next tooth flank of the rounded wheel f 7.

The presentation of the subject matter of the invention has been limited in the foregoing to its application in calculating the content of round timber. The devices for eliminating the backlash and for rounding off the content to the type values can be incorporated into the gears of all calculating machines, in which the products are formed logarithmically, in particular also into the gears of the N-machines , which the '## Tertbereclinuiig of round and cantilevered as well as the mass and value calculation of forest stands (line.

Claims (2)

PATENTA2N PROBLEMS , i. Logarithmic calculating machine with printing unit and rounding device, in particular for calculating the content and value of rounds, characterized in that a device for eliminating backlash is provided which is independent of the device for rounding off the calculated values and in terms of time for Z, be. 2. Calculating machine according to claim i, characterized in that (let the device for eliminating the backlash from l # k # I a spring (14) which permanently ensures rapid engagement of the gear parts, and that the rounding by a rounding gear (17) 3. Calculating machine according to claim i, characterized in that backlash disengagement and rounding each take place by a gearwheel (17, 37) and an associated pawl (: 22, 38) The size of the roundings is determined by Z> the tooth shapes of the indexing wheel (17). 4. Calculating machine according to claims 1 and 3, characterized in that the rounding wheel (17) and the indexing wheel (37) are rigidly connected to one another to compensate for the backlash, so is determined (ig): (22) opposite the tooth 5. calculating machine according to claim 1 that blocked the Abrundrad (17) after the elimination of the lost motion, and the size of the waste by rounding position and shape of the pawl. 3 and 4, characterized in that the round wheel (17) and the ratchet wheel (37-) are coupled to the element to be corrected (type pressure wheel) by a common intermediate wheel (3: 2, 46) to compensate for the backlash. 6. Calculator according to claim i and 3 to 5, characterized in that the intermediate wheel (32-) is arranged to be radially movable and carried by the switching lever (23) of the round wheel (17) , se that it is the lost motion compensation when the shift lever (23) is disengaged and by the engagement movement of the shift lever (23) the rounding is transmitted. 7. Calculating machine according to claim 1, 3 and 5, characterized in that the ratchet wheel (37) to compensate for the backlash and the round wheel (17) can be rotated against each other and are coupled in such a way that the round wheel (17) upon rotation of the lost motion wheel (37) taken and then up to the stop of a tooth (ig) is further rotated against a now engaged latch hook (22 # alone. 8. calculator according to claim 1, 3, 5 and 7, characterized in that the Abrundrad (17) with a switching gear (47 ), which is driven by its own pawl (55) . g. Calculating machine according to Claim 1, 3, 5, 7 and 8, characterized in that a driving pin (49) of the ratchet wheel (47) is inserted into a recess (48) of the lost motion wheel (37) engages and is pressed against the driver edge (51) by a spring (5o) clamped in the recess (48) Round wheel (17 "through which the backlash a switching off spring takes place. k #