DE1219046B - Key-operated printing device, in particular as a line typewriter - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

B 41 j

German class: 15 g-20/50

Number; 1 219 046

File number: J18179 VII b / 15 g

Filing date: May 21, 1960

Opening day: June 16, 1966

The invention relates to a key-operated printing device, in particular for use as a line typewriter, with visual inspection for the applied to an endless belt that can be moved in the direction of the lines Recording.

A typewriter is known in which the text is written line by line and then the typeface a line is transferred to the actual recording medium by means of a transfer printing roller. The primary writing is done on a tape or a bar. This arrangement is not intended to only the conventional type typewriter can be simplified by the typewriter cart in omission, but written text can be corrected before it is put on the record carrier is transferred, so that no more corrections are required on this.

It is also known a magnetic printing method in which by means of types and a magnetic Transfer head records are generated on a magnetizable carrier. This first Invisible records can then be made visible with the help of a colored powder so that a visual inspection of the written text is easily possible. Intended to the intermediate recording medium, e.g. B. a magnetizable tape, reused after the evaluation there is the option of deleting the recordings after they have been evaluated.

The invention is based on the object of creating a printing device that has both a visual inspection of the entered text before it is applied to the recording medium, as well as in contrast to the conventional typewriters, in particular the known line typewriters, no type imprint by hitting type carriers against a recording medium executes, so that the noises that inevitably occur there are avoided. The printing facility according to the invention is characterized in that a means of a feed device magnetic tape that can be driven step by step is provided, the lettering of which is provided by a magnetizable, type-exhibiting wheelset, a magnetic head and a known device for visualization of the magnetic records and that for the transmission of the set records onto a recording medium, e.g. a form, a transfer printing device known per se is provided.

The printing device according to the invention thus has neither a writing carriage nor a type lever

Button-operated printing device,
especially as a line typewriter

Applicant:

International Business Machines Corporation,

Armonk, N.Y. (V.St.A.)

Representative:

Dipl.-Ing. H. E. Böhmer, patent attorney,

Boeblingen, Sindelfinger Str. 49

Named as inventor:

John Edwin Hickerson, Lexington, Ky. (V. St. A.)

Claimed priority:

V. St. v. America May 28, 1959 (816 466) - -

on, so that it works extremely quietly and also has only a low manufacturing cost conditionally, especially in comparison with the known line typewriters. The moving masses are extremely small in the printing device according to the invention, and only by constantly moving, evenly rotating parts, a slight, even working noise is generated, that is barely noticeable by the operator.

With the device according to the invention can not, as it is with as a printing unit with the stop moved type carriers is the case, several copies are made at the same time, but is on Using the numerous known copying processes and devices, subsequent duplication as often as desired of the finished recording medium to be preferred in many cases, since this Way all copies are of the same quality and the need to use particularly thin Paper is omitted. In addition, the printing device according to the invention has the advantage that no ink ribbon is required, so that its monitoring and regular replacement are also omitted.

According to an advantageous embodiment of the invention, the type wheel set consists of two circular, disks made of non-magnetizable material separated by an air gap, in which close

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the circumference is a set of inserts with positive or negative pressure types directed towards the air gap in the axial direction. The magnetic head is preferably provided with one of the insert pairs as well as the type wheels and the magnetic tape bifurcating pole pieces. ^:

According to a further advantageous embodiment of the invention, the type wheel and are driven the control of the magnetic head synchronously by a button lever actuation responsive, per se known commutator device for selecting the actuated character.

To visually check the recordings on the magnetic tape, you can also look through The mirror allowing the form to be labeled is arranged. Further advantageous embodiments of the invention are on the advance of the labeled magnetic tape to the beginning of the line of the form and aimed at the possibility of the type wheels in a normal position and a switch ao switch position.

An embodiment of the invention is described below with reference to the drawings. It shows

F i g. 1 is a perspective view of a key actuatable printing device including FIG essential associated control circuits,

Fig. 2 is a perspective view of an enlarged Section from FIG. 1, namely the magnetic tape labeled with a complete line, whose inscription is reflected by a mirror,

Fig. 3 is a partially sectioned view the type wheels with the associated magnetic head,

Fig. 4 shows the inside of the type wheels Fig. 3,

5 shows an enlarged section through the device to make the characters visible on the magnetic tape by means of colored powder,

F i g. 6 the individual parts of the in F i g. 5 device shown in an exploded view,

F i g. Figure 7 is a perspective view of the means for pivoting the belt into its vertical position Position during the transfer printing process with parts shown drawn apart,

F i g. 8 is a side view of the pressure rods and the means for actuating them for pressing the magnetic tape against the form to be printed,

F i g. 9 the circuit diagram of the associated control circuits and

10 shows the electrical heating circuit in one of the push rods.

With the printing device shown in Fig. 1, when you hit the keys 1, of which only one is shown, the corresponding characters, i.e. letters, numbers or special characters, written magnetically on a magnetic tape 2. Carry two type wheels 3 lying directly on top of one another Inserts 4, on one end of which the characters are embossed. The band 2 is immediately between these inserts passed through the type wheels. Cooperating with the type wheels 3 a magnetic head 5 is arranged, which when excited, a magnetic flux through one of the Inserts 4 and generated by the magnetic tape 2, making this according to the contour of the set Sign is magnetized. ,.-.-,

When one of the buttons 1 is struck, a circuit for exciting the magnetic head 5 in FIG the moment at which the insert 4 with the characters corresponding to the pressed key below the magnetic head 5 arrives. The tape 2 is then moved through a device 6 in which a certain amount of magnetic powder paint is blown over the belt 2. This color sticks only on the magnetizable areas of the tape, so that the characters selected by the keystroke becomes visible.

The characters are formed on the inserts 4 so that they are reversed on the tape 2, i. H. in Mirror writing can be written. Above the belt 2, a mirror 8 is arranged in an inclined position (Fig. 2) so that any indication written on the tape can be easily read. The mirror has a thin smoke-like film on its back, which not only contains the information reflected from the gang but also allows looking through the mirror to see which information is already printed on form 9

When a line of information is written on the tape and by pressing a tab key 12 or by an automatic operation, as will be described later, into the correct position is moved relative to the form 9, a push button 14 can be actuated to the written indication to rotate the bearing part of the belt 2 in a vertical position, so that this can be pressed against the form by means of pushbuttons 15 and 16 to effect an imprint. The information is given on the form in accordance with that in the mirror before printing appearing image is printed. As a result, it can be checked before printing whether the new line of information set both vertically and horizontally with reference to the indication already printed is. The belt 2 forms a continuous loop and runs over a driven roller 17 and over the free running rollers 18, 19 and 20. Each left on the tape after printing Paint is later removed by an erasing magnet 22 and scraper brushes 23.

To drive the various devices, a motor 24 (FIG. 1) is provided, which via the Bevel gears 25 drives a shaft 26 continuously. A bevel gear mounted on this shaft causes over the gears 29 the rotation of the brushes 23. A bevel gear 30 seated on the right end of the shaft 26 meshes with a bevel gear mounted on a vertical shaft 32. The type wheel 3 is on top The end of the shaft 32 is fixed and is therefore continuously in the opposite direction at high speed Driven clockwise to move the inserts 4 past the write head 5 one after the other.

The type wheel 3 comprises two circular plates 35 and 36 (Fig. 3, 4) made of non-magnetic material, which sit on the shaft 32 with a small air gap 37 between each other. Close to their size are these plates with matching openings for receiving the made of magnetic Material existing inserts 4 provided. The adjacent ends of each pair of the aligned Inserts 4 are designed to represent one of the characters in an embossed form. The font-

5 '6

Marks on the upper inserts, like wheels 45 and 46 , have to be around contact arm 48

F i g. 4 shows its true form, while the font - two revolutions for each one revolution of the

to issue signs on the lower inserts in the form of their type wheel 3.

Are shaped in the mirror image. The arrangement of the entrances along the shaft 32 and appropriately spaced sets within the openings is such that 5 from each other are two stationary disks 54 and 55 located at the lower edges of the characters of the circumferential surface. Two contacts of the type wheel are adjacent to the disk 54 and that the writing segments 56 and 57 are fastened, which are located close to the character in the upper and lower plate in the direct disk circumference individually over approximately 180 ° in alignment with one another. The belt 2 runs through stretch. A contact attached to the shaft 32, the air gap 37 between the plates 35 and 36 on the arm 59, successively connects the segments of the side on which the magnetic head 5 is located 56 and 57 with one attached to the disk (Fig. 3). It can be seen that a passage contact ring 60. The two contact segments are bound to a magnetic flux through a pair of inserts 4 arranged on the positive side of a voltage source 61 while passing through the contact ring 60 via a lei band 2 on the The shape of the character embossed on the inserts is limited to a normally open contact RIb. This results in a relay R 1 and via the holding winding of the Resich that the characters on the tape magnet R 1 are written with the negative side of the voltage source table. The writing of some is related.

Characters, e.g. B. the letter "M" requires. On the disk 55, two contact segments 64 have a greater magnetic flux than z. B. the 20 and 65 with a distance of about 180 ° from the letter "I". In order to fix the magnetic flux through each other so that it can be regulated under the ends of the character inserts, contact segments 56 and 57 are located, which are first provided line inserts 39, the cross-section of which are reached by the arm 59 as it rotates A contact arm 66 attached to the shaft 32, depending on the size of the character 25 to be written, binds the contact segments change during its rotation. The pole pieces 40 and 41 of the magnetic head 5, 64 and 65 with one attached to the disk 55 protrude over the ends of the inserts 4 and 39, and contact ring 68, which via a line 69, creates a winding 42 on the write head when the contact is normally closed R 2 α and the excitation a greater than for writing any excitation winding of the relay Rl with the negative of a character required magnetic 30 side of the voltage source is connected. The Kon River. The magnetic 71 necessary for the magnetization of the strip in the clock segments 64 and 65 are connected to contacts 72 and 73 via lines 70 or the form of the characters, Schüssige magnetic flux runs through the inserts via a normally open contact 75 and 39. The number of inserts 4 is such that each 35 a capacitor 76 can be connected to the negative side of the voltage source for each of the upper and lower characters. The contact spring 74 represents the letters, digits and special characters, normally an electrical one is provided. All of the lower characters are connected to the contact 72, but orderly inserts are around one half when a toggle key 77 is pressed and the upper characters 40 are brought into contact with the contact 73. When assigned inserts around the other half hitting the character key 1 causes the wheel to be arranged. The reason for this arrangement of key levers that are common to all keys will become apparent later. The upper font swing arm 78 the changeover of the contact 75. The characters of each key is carried by an insert, normally the closed side of the contact 75 diametrically opposite that of the lower font 45 is connected to the positive voltage source, so bearing the characters of the same key Use indicated that the capacitor 76 is charged when it is in order. Button lever is raised. Each key lever 1 is assigned a gear 45 attached to the shaft 32 and a reversible contact 80 which (FIG. 1) meshes with a gear 46 on the shaft, normally a capacitor 81 with the posi-47, which carries a contact arm 48. The contact 50 tive or the negative side of the voltage source arm 48 slips when the shaft 47 rotates over connections, so that it is charged. When the contact segments 50 in a stationary disk 49 button 1 is pressed, the working side of the and thereby connects these segments to one another- contact 80 connects the capacitor 81 via a line following with an 82 attached to the disk 50 with one of the contact segments 50 on the contact ring 52. The number of contact segments 50 55 washer 49. If the contact arm 48 touches the number of characters which corresponds to the rotation of this contact segment connected to the capacitor 81 to be printed by each half of the type wheel 3, it establishes a connection. The contact arm 48 moves via the line 82 to the contact ring 52 and via contact segments 50 synchronously with the movement of the one line 84 to the normally open Kon character inserts 4 under the magnetic head 5. 60 clock Rla . The other side of this contact is thus one of the contact segments 50 with which connected via a resistor to the negative chip contact ring 52 at the time, in the voltage source and also via a resistor which one of the character inserts among the 86 with the grid of an electron tube 88 ver write head 5 reached. Since only half as many contact bonds. The anode of this tube is provided via a segment 50 as insert pairs 4 and 65 resistor 90 with the positive voltage source since each key for writing either an upper and a capacitor 91 and the winding or a lower character are actuated of the magnetic head 5 with the negative Side of the can, the translation must be connected between the tooth voltage source.

Assuming that the shift key 77 is in the position shown in FIG. 1 and that the key lever 1 is pressed, a circuit is established from the negative side of the voltage source via the capacitor 81, the switched contact 80 and the line 82 to one of the contact segments 50. Since the rocker 78 is moved when the character key is pressed and the contact 75 is switched over, a circuit is established from the negative side of the voltage source via the capacitor 76, the working side of the contact 75, the normally closed side of the contact 72/74 and via the Line 70 to contact segment 64 established. When the contact arm 66 touches the contact segment 64, it establishes a circuit from this segment via the contact ring 68, the line 69, the relay contact R2a and via the excitation winding of the relay R1 to the negative side of the voltage source. Simultaneously with the excitation of this relay by the discharge of the capacitor 76, the contact arm 59 detects the contact segment 56 and completes a circuit from the positive side of the voltage source 61 via the contact ring 60, the line 62, the now closed relay contact RIb and the holding winding of the relay Rl to the negative side of the voltage source. As a result, the relay R1 is kept energized as long as the contact arm 59 is in contact with the contact segment 56. Since the contact arm 59 is attached to the shaft 32 rotating at half the speed of the shaft 47, the contact arm 48 makes one revolution and engages each of the contact segments 50 during the time during which the contact arm 59 loops the contact segment 56. During the same period, the pair of character wheels 3 rotates through 180 ° in order to move the inserts 4 carrying the lower characters under the magnetic head 5.

As soon as the relay Rl is energized, its contact Ria closes and completes the current path from the contact ring 52 via the line 84 and the resistor 86 to the grid of the tube 88. At the same time, the contact Rla also completes the current path from the contact ring 52 via the resistor 85 to the negative Side of the voltage source. If the contact arm 48 now comes into contact with the contact segment 50, which is connected to the contact 80 assigned to the character key that has been pressed, a circuit is established from the capacitor 81 via the working side of the contact 80, the line 82, the contact arm 48, the contact ring 52, the line 84, the relay contact Ria and via the resistor 85 to the negative side of the voltage source. This results in a discharge of the capacitor 81 via the circuit just described in order to generate a positive voltage which is applied to the grid of the tube 88 in order to render it conductive. As soon as this occurs, the capacitor 91 discharges via a circuit in which the tube 88 and the winding 42 of the magnetic head 5 lie. At this point in time, the insert 4 with the characters corresponding to the pressed key is located under the magnetic head 5, so that the magnetic flux generated by this causes this character to be written on the tape. After the discharge of the capacitor 81, the tube 88 becomes non-conductive and the capacitor 91 begins to charge again via the resistor 90 and the connection to the positive side of the voltage source. The speed of charging is relatively slow and not sufficient to cause any other characters to be written from the type wheel.

If the shift key 77 was pressed at the time in which a pushbutton lever 1 is to be pressed, then a connection from the negative side of the voltage source via the capacitor 76, the working side of the contact 75, the contact 73 and the line 71 would be to the contact segment 65 to be completed. As soon as this contact segment is touched by the contact arm 66, the relay Rl would be energized, but this would occur 180 ° later than if the shift key is in the raised position. The contact arm 59 would then establish the holding circuit for the relay Rl when the contact 57 is looped over . During this time the upper character bearing inserts 4 would move under the writing head 5 so that the completion of a circuit upon contact of the contact arm 48 with the contact segment 50 corresponding to the key depressed would cause the upper character corresponding to that key to be written.

The speed of rotation of the shaft 47 is such that the contact arm 48 slides over the contact segments 50 approximately three times in the time during which a key lever is held down at normal writing speed. Each of the contact segments is therefore touched by the contact arm at least two or three times each time a key lever is actuated. However, it makes no difference how often the effective contact segment 50 is touched before the key is released, because the capacitor 81 is discharged for the first time via the circuit enclosing the tube 81 and can only be recharged until the key lever is raised again. The contact arm 48 must rotate at this speed because, under the most unfavorable conditions, the contact arm 66 has just left the one effective of the two contacts 64, 65 when the key lever 1 is struck. This means that the contact arm 66 then has to make almost one revolution before the effective contact segment is touched in order to cause the relay Rl to be energized and to close its contact Rla in order to achieve the writing of a character on the tape. While the contact arm 66 makes this one rotation, the contact arm 48 makes two rotations. After the relay contact Rla is closed, the contact arm 48 must perform at least one revolution while the key lever is pressed, since the contact segment 50 activated by the key lever could be just that which was left by the contact arm 48 immediately before the contact Rla was closed. In order to achieve writing through the machine at a higher stroke speed, it is only necessary to drive the contact arms at a higher speed.

When the key lever 1 is pressed for writing a character on the tape 2, it is essential that the band be around a character

distance is moved further 'in order to get into' the position for receiving another character from the type wheel. As already mentioned, the belt 2 runs over a roller 17 which is driven to move the belt to the left along the form. The roller 17 is attached to a shaft 97 which is driven by the motor 24 via a friction clutch 96 and the belt 95. A ratchet wheel 99 which is also fastened on the shaft 97 is normally locked by a pawl 100 in order to prevent the shaft 99 from rotating. When energized, a switching magnet 101 lifts the pawl 100 out of cooperation with the ratchet wheel 99 so that the latter can rotate a tooth spacing. One winding end of the switching magnet 101 is connected to the negative side of the voltage source and the other winding end via a line 103, the rest side of the contact R3a, the line 104, the rest side of the contacts RIc and 105 and via a capacitor 106 with the negative side of the Voltage source connected. The working side of the contact R 1 c is connected to the positive side of the voltage source and via the normally open side of the contact 105 to the capacitor 106.

During a write operation, the contact arm 66 comes into contact either with the contact segment 64 or with the contact segment 65 in order to complete the circuit for energizing the relay R1. As soon as the relay R1 is energized, it changes its contact oils, whereby the positive side of the voltage source via the normally closed contact 105 and the capacitor 106 is connected to the negative side of the voltage source and the capacitor is charged. The relay R1 is kept energized during the time in which the contact arm 59 slides either over the contact segment 56 or over the contact segment 57. When the contact arm slides from the end of the active segment, the relay Rl is de-energized and resets its contact RIc to the normal position, so that the capacitor 106 via the line 104, the rest side of the contact R3a, the line 103 and the winding of the magnet 101 is connected to the negative side of the voltage source. The capacitor can thus discharge, so that the magnet 101 is energized to release the pawl 100 and to allow rotation of the ratchet wheel 99 by one tooth pitch. The roller 17 performs the same movement step and transports the tape by one character pitch.

In order to advance the tape a distance between two words, the space bar 109 is operatively connected to the contact 105 to actuate it when pressed. When the space bar 109 is pressed, the contact 105 is switched to place the capacitor 106 between the positive and negative sides of the voltage source. As soon as the space bar 109 is released and the contact 105 returns to its normal position, this connects the capacitor 106 via the rest side of the contact RIc and the line 104 to the switching agent 101, so that the latter is excited and causes the tape 2 to advance.

As the tape advances as the characters are written, it moves through the device 6, which blows the magnetic paint powder over the belt to develop the characters. This device 6 (Fig. 5, 6) comprises a container 112 for receiving the color powder. That Tape 2 passes through a slot 113 formed between the ends of the container 102. Below the Container 112 is a disc 114 with openings 115 is arranged, the rotation of which the holes 115 successively come into alignment with an opening 116 in the bottom of the container 112.

Provided on the underside of the disc 114 'and with a sliding fit thereto is a blocking block 118 which contains an inlet opening 119 which opens on its upper surface and which is offset from the opening 116 in the bottom of the container 112, but in the path of movement of the openings 115 of the Disk 114 lies so that the paint deposited in openings 115 can fall into inlet opening 119 when disk 114 is rotated. The inlet opening 119 opens at its other end into a passage opening 120 into which compressed air is supplied by a continuously operating compressor (not shown). The pressurized air flows through the passage 120, taking with it the paint that has fallen through the inlet opening 119 to carry it into the upper part of the container 112 where the paint is blown over the surface of the tape 2. The disk 114 is connected to a shaft 122, at the other end of which a ratchet wheel 123 is attached. An arm 124 freely rotatable on the shaft 122 carries a pawl 126 for cooperating with the ratchet wheel 123 in order to rotate it clockwise one tooth at a time under the control of a solenoid 127. The other end of the winding of the solenoid 127 is connected to the negative side of a voltage source (FIG. 9) and to one side of a capacitor 128. The other end of the solenoid winding is connected to the other side of the capacitor 128 via the rest side of a contact 130, the line 131 and the rest side of the relay contact Rld. The working sides of the two contacts 130 and RId are connected to the positive side of the voltage source. The switchover of the contact 130 (FIGS. 1, 9) takes place when the space bar 109 is pressed.

When any of the character keys 1 is operated to cause the writing of a character on the tape 2, the relay Rl is energized in the manner described, which thereby switches over its contact RId (Fig. 9) and thereby the capacitor 128 for its charging between the both sides of the voltage source. As soon as the character in volume 2 is written, the relay Rl is de-energized in order to cause the advance of the tape 2 by one character spacing and at the same time to reset its contact RId to the normal position in order to put the capacitor 128 directly across the rest side of the contact 130 with the solenoid 127 to connect. The discharge of capacitor 128 thereby energizes solenoid 127 to pivot arm 124 (FIG. 6) and rotate disk 114 to bring next port 115 into alignment with inlet port 119. The paint powder contained in the opening 115 is deposited into the inlet opening 119 and carried to the top of the belt 2 by the air flowing through the passage 120. It is possible to arrange the inking device 6 so that a written on the tape

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Character is already developed when the tape is moved by one character distance after the writing process. However, this requires that the inserts 4 be arranged very close to the periphery of the type wheel, that the tape 2 runs between the disks of the type wheel very close to their axes and that the magnetic head 5 be arranged so that writing by means of the inserts effect when this is close to the side of the character wheel adjoining the device 6. As can be seen from FIG. 1, the distance between the magnetic head and the device 6 is several character-2-character distances. In order to deliver the last-written characters in a line color $ Repeats pressed the space bar 109 to the band gradually weiterzuschälten ₅ to each one font? character-bearing part of the tape has reached the position in which the colored powder is blown over the characters When the space bar is released, the capacitor 128 is placed in the circuit across the solenoid 127, which is thus energized to rotate the disc 114 into the position in which another port 115 is connected to the inlet port 119.

When the operator of the machine observes through the mirror 8 'that all the information required for a line has been written on the tape, the tab key 12 (Fig. 1, 9) can be pressed to transport the tape 2 so far, until the first character at the left end of the line comes to a predetermined position with respect to the toad edge of the form 9 To achieve this, the tab key 12 is assigned an envelope contact 134) which normally connects a capacitor 135 to the two sides of a voltage source. When the tab key 12 is actuated, the contact 134 is switched to establish a circuit from the negative side of the voltage source via the capacitor 135, the working side of the contact 134 and via the excitation winding of a relay R 3 to the negative side of the voltage source. As a result of the discharge of the capacitor 135, the relay R 3 is excited and changes its contact R 3 a , so that the switching magnet 101 is connected via the line 103 to the positive side of the voltage source. The relay contact, which is closed at the same time, sets up a holding circuit from the negative side of the voltage source via the holding winding of the relay jR3j the line 136 and via a contact 137 to the positive side of the voltage source. As a result, the contact R 3 a is held in its working position in order to keep the switching magnet 101 energized so that the shaft 97 can be driven by the belt 95. A disk 139 is attached to the shaft 97, in the holes 140 of which a pin 141 (FIG. 9) can optionally be inserted. An arm 142 arranged adjacent to the disk 139 can be actuated by the pin 141 to open the contact 137 when the disk 139 has rotated into a predetermined position. The pin 141 is inserted into one of the holes 140 in order to open the contact 137 when the tape 2 has been moved until the left end of the written line has reached the desired position. By opening the contact 137, the holding circuit for the relay A3 is interrupted, and the contact R3a , which thereby returns to its normal position, interrupts the excitation circuit of the switching magnet 1OL

; 5 By means of one in a hole 146 of a second row of holes of the disk 139 inserted pin 145 (Fig. 9) can in Züsammenffekt with an associated Contact 144 character writing and advancement of tape 2 in response to the

ίο operation of the write keys are prevented, if the line written on the tape is one before has reached a certain maximum length. The optionally inserted pin 145 closes after one Rotation of the disk 139 by a previously

correct angle the contact 144 and thereby a circuit via the line 147 and the excitation winding of the relay RZ, which opens its contact RZa (Fig. 1) and the contact R 2 b (Fig. 1) closes. Contact R 2 b establishes the already established

«Α mentioned holding circuit over the holding winding of the relay R 2 and the contact 137. The opening of the contact RZa prevents the excitation of the relay RX when a key lever 1 is actuated, without its excitation neither the magnetic head 5 nor the

Switching solenoid 1Ö1 can be excited _$ when a key lever is pressed. The tab key 12 can then be pressed to energize the switching magnet 101 and transport the tape 2 * until the pin 141 opens the contact 137. This causes the relay RZ to be de-energized ₃ and, at the same time, the relay R3, which is excited when the tab key 12 is pressed, also drops out It is essential that the circumference of the roller 17 must either be equal to the length of a written line plus the distance by which the tape must be moved in order to bring it into the printing position, or it must be equal to a multiple of these distances.

When a line of information on the tape has been moved to the print position, the push button 14 Be pressed to a push of the contained in the band To effect information on Form 9. Pressing the push button 14 initiates panning of the tape section carrying the written information into a vertical position and then the Movement of the push rods 15 and 16 against the opposite sides of the form 9 and the belt 2 a »To pivot the belt, the two lateral ends of the form 9 are each adjacent a semicircular disc 150 (Fig. 7) is provided, in the groove 151 on the upper edge of the Band 2 slides »The side surfaces of the groove 151 are inclined a little inward to allow the band for the Angular movement with the disc 150 to keep. The disk 150 rests in a semicircular recess 152 of a stationary side plate 153. An

on one side of the disc 150 a flangeGhl54 extending over the plate 153 is formed, and on the opposite side of the plate 153 is a yoke 156 on the disc 150, e.g. B. by brazing attached. A pin 157 screwed into the yoke 156 protrudes through a circular slot 158 in the side plate 153 ^ around the disc 150 in the To hold recess 152 and to allow their angular movement. One fixed in the disc 150

Pin 160 protrudes through the forked end 161 of a lever 162 which is rotatably attached to the side plate 153 and which carries a roller 163 at its other end. This roller 163 cooperates with a cam 164 on the shaft 16S, which is rotatably supported in side plates (not shown). One full turn of the cam 164 first rotates the disc 150 to a position to hold the tape 2 in a vertical position in which the written indication faces the form 9, and then rotates the tape back to its horizontal position. The push rods 15 and 16 sit slidably on horizontal axes 166 and can be moved against one another in order to press the belt 2 against the form 9 Zvl. An electrical heating element 168 is provided within the push rod 16 which heats the paper and paint powder to cause the latter to adhere to the form.

The movement of the push rods 15 and 16 on so the axes 166 takes place under the control of levers 169 and 170 (Fig. 1, 8), which with the one End of the push rods rotatably connected and rotatable about stationary axes between their end points are. At their lower ends, the levers 169 as and 170 are rotatably connected to links 172 and 173, respectively. which protrude towards each other and at their inner ends together with a cam follower roller 174 are connected, which cooperates with a cam 175 on the shaft 165. When rotating the Cam 175 moves the links 172 and 173 to pivot the levers 169 and 170 in one direction to move the push rods 15 and 16 against each other. One to the Lower ends of levers 169 and 170 attached to spring 176 pivot the levers in the reverse direction Direction to retract the push rods back to normal when the roller 174 is on the lower part of the cam 175 is running.

A belt pulley 179 (FIG. 1) running freely on the shaft 165 is provided for rotating the shaft 165 is driven by the belt pulley 178 fastened on the shaft 26 via the belt 177. A clutch for the connection of the belt pulley 179 with the shaft 165 one end of the shaft 165 and a hub portion of the pulley 179 comprising clutch spring 180 comprise. The one The end of the spring 180 is attached to a coupling element 181 which runs freely on the hub part has a shoulder cooperating with an arm 182. The other coupling element 184 is with connected to the opposite end of the spring 180 and sits freely on the shaft 165. One on the coupling element 184 shaped shoulder part works with one under the action of a spring Ratchet 185 together. When the arm 182 out of cooperation when a magnet 186 is energized is brought to the clutch element 181, the clutch spring 180 connects the clutch wheel 179 with the shaft 165 to drive it. At the end of one revolution, the arm 182 detects the Shoulder of the coupling element 181 to which one end of the coupling spring is attached. the Shaft 165 still rotates somewhat as a result of its inertia and thereby causes itself the coupling element 184 rotates to a position in which its shoulder engages the ratchet 185 will. The clutch spring 180 is then in an expanded state and free from the shaft and is held in this state by the arm 182 and the Speff tooth 185.

The excitation of the push-clutch magnet 186 is initiated when the push-button 14 (FIGS. 1, 9) is pressed. The switchover by this key contact 188 places a capacitor 189 between the positive and negative sides of the voltage source in order to charge it. When the pushbutton is released, the contact 188 (rest side) connects the capacitor 189 to the pressure clutch magnet, so that this is energized and the clutch arm 182 lifts The Nosken 164 and LIS are then driven to pivot the belt 2 and the push rods 15 and 16 to move towards each other. When the lever 170 is pivoted to move the pressure rod 15, this lever closes a contact 190 (FIG. 1, 10) in order to bridge a resistor 191 (FIG. 10) connected in series with the heating element 168. As a result of the bridging of this resistor 191, the element 168 heats up very quickly in order to cause the colored powder to adhere to the paper.

If desired, the pressure clutch magnet 86 can be automatically energized as soon as the tape 2 is moved into the printing position by the tabulator device. To achieve this, the relay contact R 3 e is placed in the current path between the capacitor 189 and the push button 14. The rest side of this contact connects the capacitor to the push button j and the working side of the contact R 3 c connects the capacitor 189 via a manually adjustable pressure switch 194 (FIG. 9) to the positive side of the voltage source. Assuming that the switch 194 is closed, each time the tab key 12 is pressed, which, as already explained, causes the relay R 3 to be excited, the capacitor 189 is switched between the two sides of the voltage source through the switched contact R3 c and charged. After the completion of the tabulation process, the contact R3c returns to its normal position in order to connect the capacitor 189 to the pressure clutch magnet 186, so that the latter is excited by the discharge of the capacitor to bring about the printing process.

As soon as a line of information has been printed in magnetic tape 2, keys 1 can go back to Press to write another line. The part of volume 2 from which the print in the form was obtained, finally runs through an erase head 22, which by closing a manual switch 196 (Fig. 1) can be continuously energized by an AC power source 195. The magnetic tape 2 is thus demagnetized by the erase head, so that each still adhering to the printing process Color is released from the tape. The brushes 23 then remove any loose particles of paint before the tape is moved under the magnetic head 5 again.

Claims (7)

Patent claims: 1. Key-operated printing device, in particular as a line typewriter, with visual inspection for the records applied to an endless belt that can be moved in line direction, characterized in that is "a magnetic tape (2) which can be driven step by step by means of a feed device (17,96,97, 99,100,101) is provided, the inscription of which is provided by a magnetizable wheel set (3), a magnetic head (5) and a device known per se (6) to make the magnetic recordings visible, and that a transfer printing device (15, 16) known per se is provided for the transfer of the recorded recordings to a recording medium, for example a form (9). 2. Device according to claim 1, characterized in that the type wheel set (3) 'consists of two circular disks (35, 36) made of non-magnetizable material, separated by an air gap consists, in which a set of inserts (4) each facing the air gap close to the circumference positive or negative printing types is fixed in the axial direction. 3. Device according to claims 1 and 2, characterized by a magnetic head (5) with one of the insert pairs (4), the type wheels (3) and the magnetic tape (2) bifurcating pole pieces (40.41). 4. Device according to claims 1 to 3, characterized in that the- ^; Drive of the type wheel (3) and the control ^{: of} the magnetic head (5) synchronously by a known commutator device (45 to 50, 80 to 82, 84 to 86, 88, 90, 91) that responds to the actuation of the key lever for selecting the actuated character he follows. 5. Device according to claims 1 to 3, characterized in that for visual inspection the recordings on the magnetic tape (2) at the same time a view of what is to be labeled Form (9) admitting mirror (8) is arranged. 6. Device according to claims 1 to 3 and 5, characterized in that an electromagnetic control device (134, 135, 137, 139 to 142) which can be triggered via a special tab key (12) for the advance of the labeled magnetic tape (2) to the beginning of the line of the form (9) is provided. 7. Device according to claims 1 to 3, characterized in that the type wheels (3) One set of type inserts each corresponding to the "normal position" and the "changeover position" (4), which are arranged on one half near the wheel circumference, and that at the actuation or non-actuation of a toggle key (77) a commutator arrangement (55, 64 to 66, 68) move the magnetic head (5) to the "normal position" or the "changeover position" the corresponding half of the type can take effect. Considered publications:
German Patent Nos. 587 430, 866194;
British Patent Nos. 805 610, 820 931;
U.S. Patent No. 1480,919;
Electronics, September 1956, p. 149, "Magnetic Printing". For this purpose 2 sheets of drawings 609 579/75 6.66 © Bundesdruckerei Berlin