DE2147534C3 - Space mechanism for electric typewriters - Google Patents

Description

The invention relates to an intermediate door mechanism for electric typewriters according to the preamble of the claim.

When typing, it is often necessary to repeat a space, with the possibility of must be given to produce a single space. With mechanical typewriters the space key must be depressed as often as a space is to be performed. In electric typewriters, the power of an electric motor is used to drive the space device applied, and to repeat a space between spaces it is sufficient to hold the space key for so long hold down for as long as necessary to create the space. The space key has two hubs for this purpose. The first, shorter stroke only creates a gap. At the (with a wide, longer stroke, there is an automatic • interstitial repetition.

In the known designs of an intermediate space mechanism, a modified one is generally used Type lever drive applied, in such a way that instead of tie rods, a lever and a type lever a shift rod is connected to the drive lever. As the mass of the shift rod as well the inertial forces of the circuit are significantly lower than the inertial forces and the mass of the transmission lever, the tie rods and the type lever, the repetition of the space is very much quickly, but irregularly, as the drive pawl does not always move behind the nose of the gearwheel in time can latch and sometimes bump into the tips of the nasei. To get rid of this undesirable phenomenon term, the drive mechanism is provided with a brake that, when the drive moves back bels slows down its speed to a value at which the function of the gap mechanism! This device runs regularly after the fact that it has a special brake design requires what made an additional manufacturing difference tends to result in parts, and besides, it is with Ma machines with a long platen, the carriages of which have a larger mass and are therefore located near the writer move more slowly, it is necessary to change the size of the braking force so that the gap mechanism! works regularly.

The invention is based on the object with a construction according to the generic term of the patent claim to train the function of the gap mechanism to be repeated quickly and regularly len.

This object is achieved according to the invention in a device of the aforementioned type in that the drive lever via a pin with a similarly designed, also pivotable auxiliary drive lever is firmly connected, which is in the same way as the drive lever both with an auxiliary drive pawl, which cooperates with a toothed shaft, as well as is provided with a lower auxiliary release lever the one with a protrusion on repeated function actuation against an adjustable stop of a is movable at the push of a button about a fixed axis pivoting rocker arm. It is up to the dei Auxiliary drive pawl opposite part of the circumference of the splined shaft leaving only one nose Recess provided.

An embodiment of an intermediate space mechanism according to the invention is shown in the drawing. It sows

F i g. 1 shows a space mechanism and its drive in side view,

F i g. 2 shows a plan according to FIG. 1 and

F i g. 3 shows a section AA according to FIG. 1.

According to FIG. 1, a key 1 is pivotably mounted on two rocker arms with the aid of pins 65 and 66. The upper rocker arm 2 is pivotably attached to a pin 3 in the side wall 4 of the machine. The lower rocker arm 5 is pivotably mounted on a pin 6, which in turn is mounted and fastened in a longitudinal groove of a cylindrical body 59 mounted in the side parts 4 of the machine frame. The rocker arm 5 engages in one of the circumferential grooves 60, a number of which are designed to guide rocker arms of all keys of the type levers (not shown) in the cylindrical body 59. A pushbutton 7 is fastened at one end to the key 1, while its other end is fastened to a key (not shown) which is mounted on the other side of the group of type lever drive systems and connected to the key 1 by a rod 57. Two extensions are also formed on key 1, namely an upper extension 8 and a lower extension 9, both of which are directed transversely to the direction of travel of key 1 indicated by an arrow P. On the upper runner 8 a lug 69 is pivotably mounted on a pin 68, which with its movable stop edge 70 in the space between the

The upper runner 8 and the lower runner 9 engages. The pivoting of the lug 69 is limited by a fixed stop 71, which is supported on the outer flank of the upper runner 8 under the action of a spring 72 suspended between the pivotable lug 69 and the lower runner 9 . Kn of the inner edge of the upper spur 8 is a fixed stop edge 73 is formed. Between the upper runner 8 and the lower runner 9 there is a stop 10 on which the lower runner 9 rests under the action of a spring 11 suspended at one end in the lower runner 9 and at the other end in the frame 12 of the machine Stop 10 is formed by an eccentric which is mounted on a shaft 13 which is rotatably mounted in a side wall 4 and secured in the set position. A nut 14 is used as a securing means. The surface of the stop 10 is provided with a layer 64 of shock-absorbing material, for example felt. This layer is usually called the "cushion" of the keys 1. The distance A between the stop 10 and the movable stop edge 70 on the lug 69 determines the first stroke of the key 1 and corresponds to the stroke of all other keys I ₁ that the type lever drives with a single character imprint operate and therefore do not have a pivoting catch 69. The distance h between the stop 10 and the fixed stop edge 73 on the upper extension 8 of the key 1 determines the second stroke of the key I ₁ which controls the drive mechanism of the space mechanism with automatic space repetition. The upper rocker arm 2 becomes wider in the direction of the button 1. In its widened part, a pin 15 is attached, on which an upper release lever 16 is pivotably mounted transversely to the stroke direction of the button 1 attached fixed stop 18 on. A spring 20 is fastened at one end to the arm 19 of the upper release lever 16 and is held at its other end in the arm 80 of the upper rocker arm 2. In the section between the fixed stop 18 and the pin 15, a nose 21 is formed on the arm 17 of the upper release lever 16. In the space between the upper rocker arm 2 and the lower rocker arm 5, a pin 22 is fixed in a longitudinal groove of the roller-shaped body 59, on which a drive lever 23 is rotatably mounted, which from this space in one of the upper runner 8 and the lower runner 9 of the Button 1 protrudes in the opposite direction. The roller-shaped body 59 is fastened in the side parts 4 of the machine frame. The drive lever 23 engages in a circumferential groove 60. The body 59 with circumferential grooves 60 is used to guide drive levers 23 and rocking levers 5 and to delimit their side mirrors so that adjacent levers do not collide. With the aid of a pin 24, a lower release lever 25 is pivotably mounted on the drive lever 23. On the arm 26 of the lower release lever 25, a curvature 27 is formed which is in engagement with the nose 21 on the arm 17 of the upper release lever 16. A slight play is formed between the curvature 27 and the nose 21, which prevents rattling during their function. With the curvature 27, the arm 26 of the lower release lever 25 rests on a nose-shaped stop 28 on the drive lever 23. A release lug 30 is formed on the arm 29 of the lower release lever 25, which with a lug 31 on an arm 32 and a pin 34 in the drive lever 23 pivotally mounted drive pawl 33 is in engagement

On the other arm 35 of the drive pawl 33, a tooth 38 is formed, which engages with a stop 37 an extension 38 of the drive lever 23 is supported between the arm 35 of the drive pawl 33 and the arm 26 of the lower release lever 25, a spring 39 is suspended. Opposite the drive pawl 33 is a transverse Splined shaft 40 running through the keyboard is rotatably supported. The splined shaft 40 is provided with a not shown Drive, e.g. B. an electric motor, coupled. The trigger lug 30 engages with from the other side a release arm 41 of a release lever 42 a. The release lever 42 is at the end of the drive lever 23 a pin 47 pivotally mounted between the end of the arm 29 of the lower release lever 25 and A spring 44 is suspended from an arm 43 of the release lever 42 on the release arm 41 of the release lever 42 a nose 45 is formed with a nose 46 on the arm

32 of the drive pawl 33 engages. Opposite the nose 46 of the drive pawl 33 is a drive lever 23 Stop 48 is formed, on the one hand the pivoting of the drive pawl 33, on the other hand the starting position of the release lever 42 is delimited On the release arm 41 of the release lever 42 there is a fuse extension 49 formed, the end of which is directed against the arm 35 of the drive pawl 33. Between the end of the fuse runout 49 and the arm 35 of the drive pawl

33 is one of the overlap of the nose 45 on the arm 41 of the release lever 42 with the nose 46 on the arm 32 of the Drive pawl 33 adequate gap. The end of the drive lever 23 is supported by a shock-absorbing Material 64, e.g. B. rubber, covered stop 50. Between the extension 38 of the drive lever 23 and the frame 12 of the machine a return spring 67 is suspended, under the action of which the end of the drive lever 23 is pressed onto the stop 50. At the end of the drive lever 23 there is a pin 51 attached, which is in an elongated opening 81 on an arm of a pin 83 in the side wall 4 of the Frame 12 of the machine rotatably mounted cranked two-armed lever 82 freely engages with the other Arm of the cranked two-armed lever 82 is a shift rod 85 of the with the help of a pin 84 Connected carriage switching mechanism, which is not shown. On the upper rocker arm 2 there is an adjustable one Attached stop, in such a way that in the upper rocker arm 2 an elongated opening 74 is formed *, through which a stop pin 75 mounted on an adjusting piece 76 passes. The adjusting piece 76 is on upper rocker arm 2 is fastened with a screw 77, which passes through an elongated opening 78 in the adjusting piece 76 goes. The longitudinal axes (not shown) of the two elongated openings 74 and 78 intersect. Right next to the first drive system is housed a second, which is supported by a pin 22 in the adjacent Circumferential groove 60 '(Fig. 2) of the body 59 pivotally mounted auxiliary drive lever 23' formed and to which the same parts are otherwise attached as on the first drive system. So the key falls 1, the lower rocker arm 5 and the upper rocker arm 2 with all parts attached to them path. The end of the auxiliary drive lever 23 ′ is firmly connected to the pin 51. An arm 26 'of a lower one Auxiliary release lever 25 'is through a projection 79

extended into the space between the pin 15 on which the upper release lever 16 is pivotably mounted is, and the stop pin 75 is cranked. The stop pin 75 projects beyond the projection 79 of the arm 26 ' of the lower auxiliary release lever 25 'on the flank, which is against the direction of the pivoting of the upper Rocker arm 2 is located. Opposite the tooth 36 'an auxiliary drive pawl 33' is on the circumference of the toothed shaft 40 a recess 87 and a nose 86 are formed. The recess 87 is z. B. by milling away of the remaining teeth is generated at this point and reaches a depth which corresponds to the height of the nose 86. the The width of the recess 87 slightly exceeds the width of the second system.

Some parts, such as the pins 3, 6, 22 and the stops 10, 18, are common to both drive systems. The body 59 for the storage of the drive lever 23, 23 'can also be common. For the sake of simplicity and clarity, there is only one in the drawings Side wall 4 shown.

After connecting the machine to an electrical power source, the splined shaft 40 starts up and rotates constantly in the direction of arrow R. The first stroke of button 1 is done by pressing button 7, whereby button 1 on rocker arms 2, 5 in the direction of arrow P swings out until the movable stop edge 70 touches the stop 10. With this first stroke of button 1, a single space is generated. By pivoting the upper rocker arm 2, the upper release lever 16 moves horizontally to the left, the nose 21 of which hits the curve 27 on the arm 26 of the lower release lever 25, and the lower release lever 25 pivots counterclockwise. Its arm 29 swivels against the direction of action of the spring 44, and the release lug 30 brings the lug 45 out of engagement with the lug 46 on the arm 32 of the drive pawl 33 by pressure on the arm 41 of the release lever 42. The drive pawl 33 is nothing in the way, Its nose 31 on the arm 32 is also free, and it therefore swivels out in a clockwise direction under the action of the spring 39, and the tooth 36 comes into engagement with the toothed shaft 40 supporting drive pawl 33 with, and with it also the drive lever 23 against the action of the return spring 67. The pivoting of the drive lever 23 is transferred to the cranked two-armed lever 82, whose pivoting clockwise sets the shift rod 85 in motion to the left, thereby actuating the switching mechanism and the carriage of the machine shifts a space between the letters. Shortly after the drive lever 23 swings out, the curvature of the arm 26 of the lower release lever 25 is out of engagement with the nose 21 of the drive lever 15 At this moment, the action of the spring 44 causes a pressure of the release lug 30 on the lug 31 of the drive pawl 33. The drive pawl 33 returns to its rest position, and its nose 46 falls back behind the nose 45 of the release lever 42, in the direction against the action of the spring 39, which is weaker than the spring 44. The curvature 27 on the arm 26 of the lower Release lever 25 is again based on stop 28 on drive lever 23. Under the action of return spring 67, drive lever 23 begins to return to its rest position until its end hits stop 50.

If, in the meantime, the pressure on the button 7 has been released, the button 1 with the rocker arms 2, 5 returns to the rest position back, and with them the upper release lever 16 by shifting on the fixed Stop 18. Then, when the drive lever 23 moves back, the curvature 27 of the lower release lever falls 25 behind the nose 21 of the upper release lever 16. The splined shaft 40 prevents the return The drive pawl 33 is not, because it is brought into its rest position before it intersects the toothed shaft 40. If the button 7 is still depressed in the time in which the drive lever 23 its return to the End of the rest position, the arm 17 of the upper release lever 16 is due to the curvature 27 of the lower release lever 25 raised, d. H. the nose 21 is out of engagement with the curvature 27. By this measure is a repetition of the pivoting of the drive lever 23 and thereby a repetition of the Intermediate space prevented By releasing the pressure on the button 7, the button 1 returns to its Rest position back and with it also the upper release lever 16, its nose 21 under the action of the spring 20 falls behind the curve 27 on the arm 26 of the lower release lever 25 and the arm 17 of the upper release lever 16 touches the fixed stop 18. Simultaneously with the drive lever 23 also pivots the auxiliary drive lever 23 'because it is connected to it by the pin 51. However, it doesn't come to any Swing out the auxiliary drive pawl 33 ', because this system has no release lever that swings out of the lower auxiliary release lever 25 'would perform. The auxiliary drive pawl 33 'remains in this Disengages from splined shaft 40.

An automatic generation of gaps occurs with the second stroke of button 1, i.e. when the push button 7 is depressed so that the lug 69 swings out and the fixed stop edge 73 on the upper extension 8 of the button 1 touches the stop 10 by pivoting the upper Rocker arm 2 moves the upper release lever 16 in the horizontal direction, butts with the nose onto the curvature 27 on the arm 26 of the lower release lever 25, and the lower release lever 25 pivots the end. Its arm 29 swivels against the direction of action of the spring 44, and the release lug 30 brings by pressing on the arm 41 of the release lever 42, the nose 45 disengages from the nose 46 on the arm 32 of the Drive pawl 33. Nothing stands in the way of the drive pawl 33, and her nose 31 on the arm 32 is free, and she therefore swings out under the action of the spring 39 and the tooth 36 comes into engagement with the tooth wilt 40. The toothed shaft 40 carries with it the drive pawl 33 which is supported by its arm on the stop 48 and with it also the drive lever 23 against the action of the return spring 67. The swiveling de; Drive lever 23 is transmitted via the two-armed lever, the pivoting of which the Schaltzugstan ge 85 in motion by which the switching mechanism is actuated and the carriage of the machine shifts moves around a space between the letters. Shortly after the An 65 drive lever 23 is the curvature 27 of the arm 26 of the lower release lever 25 disengaged mi the nose 21 of the upper release lever 16. When reaching the maximum swing of the drive lever

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23 comes the tooth 3fi of the drive pawl 33 apart Engagement with the toothed shaft 40. By the action of the spring 44, a pressure of the trigger nose is applied at this moment 30 caused on the nose 31 of the drive pawl 33. The drive pawl 33 returns to its rest position back, and its nose 46 falls back behind the nose 45 of the release lever 42, in the direction against the action of the spring 39, which is weaker than the spring 44. The curvature 27 on the arm 26 of the lower Release lever 25 is again based on the stop 28 on the drive lever 23. Under the action of the return spring 67 begins the drive lever 23 to return to its rest position until its end hits the stop 50 bumps. The auxiliary drive lever 23 'of the second system also returns to its rest position because it is with the Drive lever 23 of the first system is connected by pin 51. The push button 7 of the space device remains depressed, d. That is, that the upper rocker arm 2 is swung out, and that is its Swing out greater than in the case of the execution of a single space. The projection 79 of the Arm 26 'of the lower auxiliary release lever 25' strikes the stop pin 75 of the upper rocker arm 2 attached adjustable stop and causes a pivoting of the lower auxiliary release lever 25 '. Just before the end of the auxiliary drive lever 23 'is placed on the stop 50, it comes through a pressure of the release lug 30 'on the arm 41' of the auxiliary release lever 42 'to release the lug 45' from engagement with the nose 46 'on the arm 32' with the aid of the auxiliary drive pawls 33 '. The auxiliary drive pawl 33 ' is again nothing in the way, and it therefore swings out under the action of the spring 39 'and brings the Tooth 36 'in engagement with the nose 86 of the splined shaft 40. The nose 86 of the splined shaft 40 takes up with the Arm 32 'on the stop 48' supporting auxiliary drive pawl 33 ', and with it also the auxiliary drive lever 23 'against the action of the return spring 67'. The pivoting of the auxiliary drive lever 23 'is via the two-armed lift! 82 transferred, the pivoting of which sets the shift rod 85 in motion, whereby the switching mechanism is actuated, and the carriage of the machine shifts one more Space between letters. When the maximum swing out of the auxiliary drive lever is reached 23 'comes the tooth 36' of the auxiliary drive pawl 33 'out of engagement with the nose 86 of the toothed shaft 40. Through Action of the spring 44 'is a pressure of the trigger nose 30' on the nose 3Γ at this moment Auxiliary drive pawl 33 'caused. The auxiliary drive pawl 33 'returns to its rest position and its Nose 46 'falls back behind the nose 45' of the auxiliary support 42 ', in the direction against the Effect of the spring 39 'which is weaker than the spring 44 is. The curvature 27 'on the arm 26' of the lower auxiliary release lever 25 'is again based on the stop 28 'on the auxiliary drive lever 23'. The auxiliary drive lever 23 begins by the action of the return spring 67 ' to return to its rest position. During this movement, the projection 79 of the arm 26 'of the urn siößt Ren auxiliary release lever 25 'again on the stop pin 75 of the one attached to the upper rocker arm 2 adjustable stop and causes a swing effect of the lower auxiliary release lever 25 '. The other Movement of the levers is the same as already described ben, and the automatic execution of the intermediate space is repeated as long as the pressure on the probe head 7 of the space device continues In this repeated operation of the gap execution, the drive lever 33 of the he is located most system is always in its rest position, since the curvature 27 of the arm 26 of the lower release lever 25 is constantly out of engagement with the nose 21 of the upper release lever 16. By releasing the pressure aul the push button 7 of the gap mechanism kehn the whole mechanism in its rest position, unc the generation of gaps is stopped.

The position of the key 1 of the intermediate space device is set simultaneously with the keys of the type lever by the eccentric adjustable stop 10, namely by rotating it. After the Etnstel development, the stop 10 is secured with the aid of the nut 14. The size of the first stroke determined by the distance / 1 and the size of the second stroke determined by the distance h do not change.

By forming the recess 87 on the toothed shaft 40 and attaching a nose 86 for the Engagement with the auxiliary drive pawl 33 ', the repetition of the gap is slowed down in such a way that that no irregularities arise in the operation of the gap mechanism. Should ei but you can get some by adjusting the adjustable stop at the top Rocker arm 2 can easily be eliminated. The position de: adjustable stop is after loosening the screw 77 set by moving the adjusting piece 76. After the setting, its correctness through there; Hearing can be determined during the production of the gaps, the screw 77 is tightened The setting can be on assembled, semi-covered! Machines are done without turning them over to have to.

For this purpose 3 sheets of drawings 509 622/189

Claims (1)

Claim: Intermediate space mechanism for electric typewriters, the drive of which is derived from a revolving toothed shaft with which a drive pawl cooperates, this drive pawl being pivotably mounted on a drive lever which is connected via a two-armed lever to a shift rod for the carriage shift mechanism w, the drive being by a on the one hand with a fixed stop edge, on the other hand with a movable stop edge provided button can be actuated, which is pivotably mounted on a rocking lever provided with an adjustable stop, which is pivotably connected to an upper release lever, this upper release lever with one in engagement with the drive pawl lower release lever cooperates, characterized in that the drive lever (23) is firmly connected via a pin (51) to a similarly designed, also pivotable auxiliary drive lever (23 ') which, in the same way as the drive lift! (23) is provided both with an auxiliary drive pawl (33 '), which cooperates with a toothed shaft (40), and with a lower auxiliary release lever (25'), which is provided with a projection (79) against an adjustable stop (75) when the function is repeatedly actuated ) a rocker arm (2) pivoting around an axis (3) fixed to the frame when a button is pressed and that on the part of the circumference of the toothed shaft (40) opposite the auxiliary drive pawl (33 ') there is only one lug (86) left over recess (87) is.