Escapement mechanism for syllabic keyboard controlled devices

Abstract

In a syllabic keyboard-controlled device, an escapement mechanism comprising a cogged wheel provided with mobile cogs, each cog being displacable between a stop position and an escapement position. This device provides differenciated escapements. The length of each escapement comprises a number of a given interval which is equal to the number of cogs which where put in escapement position. This device may be combined with an escapement anchor, which is mobile between a stop position and an escapement position.The displacement of the anchor alone into stop position produces an escapement of a single interval. This displacement at the same time as the displacement into escapement position of one or several cogs augments the length of the escapement by the given interval.

Description

Claims

1. A keyboard-controlled device comprising:

a syllabic-keyboard, certain keys of which can be depressed simultaneously and certain keys of which each control simultaneously several characters belonging to groups which each correspond to a distinct printing point, the keyboard further comprising spacing keys, and a printing mechanism which includes a carriage; the improvements comprising:

an escapement mechanism which controls the advance of said carriage, this mechanism comprising a rotatable cogged escapement wheel (FIGS. 24 to 28) provided with mobile cogs, each cog being displaceable between a stop position (FIG. 25) and an escapement position; the cogged-wheel being combined with an escapement anchor (1057 FIG. 27) which is pivotally mounted about an axle so that it can be pivoted between a stop position and an escapement position, this anchor comprising a stop arm and a return arm, the stop arm being situated in the path of movement of the cogs which are in the stop position and the return arm being outside this path of movement when the escapement anchor is in its stop position, but the stop arm being outside this path of movement and the return arm being in this path of movement when the anchor is in its escapement position, the return arm being then encountered by the first cog in the stop position, so that this first cog returns the anchor in its stop position, the stop arm being then encountered by the first of the cogs remaining in stop position, which locks the wheel; the result being that: if only the cog which is halted against the stop is moved to the escapement position, the escapement obtained corresponds to a given interval; if the cog which is against the stop and one or more of the next successive cogs are simultaneously placed into the escapement position, the escapement corresponds to as many of such intervals as there are cogs moved to the escapement position; if, in addition to moving these cogs into the escapement position and at the same time, the anchor is placed in its escapement position, the escapement obtained is increased by one such interval; if the anchor alone is placed in the escapement position, the escapement obtained corresponds to one single such interval; the escapement mechanism further comprising: means controlled by one of the elements set in motion when printing any character belonging to a first character group, for shifing into escapement position the cog which is against the stop arm, means controlled by one of the elements set in motion when printing any character of each next character groups, for shifting into escapement position each of the next cogs respectively; the result being that the cog which is against the stop is placed into the escapement position when any character of the first group is printed, each of the next successive cogs being placed into the escapement position when any character of the corresponding character group is printed; the escapement mechanism further comprising means controlled by the spacing keys and by certain character keys for shifting the anchor into escapement position.

2. A device as claimed in claim 1, in which the keyboard is made up of electric switches (FIGS. 42 and 50) and including an electromagnet (3833 FIGS. 32 and 47) arranged opposite the escapement anchor to push it in its escapement position, each of the space keys (FIG. 42) controlling a switch (FIG. 47) connected to said electromagnet and several switches each controlled by a character key being connected to a common conductor (SP.auto.FIGS. 48 and 47) through a diode, this common conductor being connected to said electromagnet, so that each of said character keys, when depressed, provides automatically a space in addition to the printing of the character or characters assigned to the considered character key.

3. A keyboard controlled device comprising:

a syllabic-keyboard, certain keys of which can be depressed simultaneously and certain keys of which each control simultaneously several characters belonging to groups which each correspond to a distinct printing point, the keyboard further comprising spacing keys, and a printing mechanism which includes a carriage; the improvements comprising:

an escapement mechanism which controls the advance of said carriage, this mechanism comprising a rotatable cogged escapement wheel (FIGS. 24 ro 28) provided with mobile cogs, each cog being displaceable between a stop position (FIG. 25) and an escapement position, and with a stop (1018) arranged in the path of movement of the cogs in stop position, the length of the escapement thus corresponding to the number of cogs placed in escapement position, and the mechanism comprising a fixed helicoidal cam (1120 FIG. 24) arranged on the path of movement of the cogs in the escapement position to return them into the stop position;

the printing mechanism comprising type-bar groups each corresponding to a given character group, and a driving element, intermediary levers by means of which the driving element controls the type-bars of the corresponding group, for certain groups, a group escapement paddle (271-275 FIG. 9) arranged on the path of movement of the intermediary levers of the corresponding group, each group escapement paddle being connected through a bell-crank lever to one end of a push-rod (406-409) the other end of which is arranged opposite a cog of the escapement wheel, the push-rod corresponding to the first group being arranged opposite a first cog stopped against the stop, and the push-rods corresponding to the next consecutive groups (II-V) being arranged opposite the corresponding cogs respectively, so that the printing of any character belonging to a given group places in its escapement position the cog stopped at the place corresponding to this group; the push-rod of the second group being extended before the cog which is against the stop and corresponds to the first group, so that this cog is moved to its escapement position, and that the escapement is obtained even if a character of the second group is printed without simultaneous printing of a character in the first group.

4. A keyboard-controlled device comprising:

a syllabic-keyboard, certain keys of which can be depressed simultaneously and certain keys of which each control simultaneously several characters belonging to groups which each correspond to a distinct printing point, the keyboard further comprising spacing keys, and a printing mechanism which includes a carriage; the improvements comprising:

an escapement mechanism which controls the advance of said carriage, this mechanism comprising a rotatable cogged escapement wheel (FIGS. 24 to 28) provided with mobile cogs, each cog being displaceable between a stop position (FIG. 25) and an escapement position, and with a stop (1018) arranged in the path of movement of the cogs which are in stop position, the length of the escapement thus corresponding to the number of cogs placed in escapement position, and the escapement mechanism comprising a fixed helicoidal cam (1120 FIG. 24) arranged in the path of movement of the cogs in the escapement position for returning them into the stop position;

said device comprising type-bars and intermediary levers, and at least for certain character groups, a group escapement paddle situated in the path of movement of the intermediary levers by means of which the driving element controls the type-bars of the group under consideration, a switch (994 FIG. 49) arranged in the path of movement of said group escapement paddle (992) and an electromagnet (941) to which the switch is connected, said electromagnet being arranged opposite the cog stopped at the place corresponding to the group under consideration, so that the electromagnet places the cog in its escapement position each time that a character of the group under consideration is typed.

5. A keyboard-controlled device comprising:

a syllabic-keyboard, certain keys of which can be depressed simultaneously and certain keys of which each control simultaneously several characters belonging to groups which each correspond to a distinct printing point, the keyboard further comprising spacing keys, and a printing mechanism which includes a carriage, and a driving element; the improvements comprising:

an escapement mechanism which controls the advance of said carriage, this mechanism comprising a rotatable cogged escapement wheel (FIGS. 24 to 28) provided with mobile cogs, each cog being displaceable between a stop position (FIG. 25) and an escapement position, and with a stop (1018) arranged in the path of movement of the cogs in stop position, the length of the escapement thus corresponding to the number of cogs placed in escapement position, and the mechanism comprising a fixed helicoidal cam (1120 FIG. 24) arranged in the path of movement of the cogs in the escapement position to return them to the stop position;

the escapement mechanism comprising type-bars and intermediary levers, and for certain character groups, a group escapement paddle situated in the path of movement of the intermediary levers by means of which the driving element controls the type-bars of the group under consideration, a switch arranged in the path of movement of said group escapement paddle (992 and 994 FIG. 49b) and an electromagnet (941 FIG. 49c) to which the switch is connected, arranged opposite the cog stopped at the place corresponding to the group under consideration, so that the electromagnet places the cog in its escapement position each time that a character of the group under consideration is typed;

the electromagnet (941 FIGS. 44, 47) for displacing the cog of the wheel corresponding to the second character group having its energization coil connected to that of the electromagnent corresponding to the first character group through a diode, so that when a character in the second group is printed, without simultaneous printing of a character in the first group, the cog corresponding to the first character group is moved to the escapement position, with that of the second character group, but not vice versa.

6. A keyboard-controlled device comprising:

a syllabic-keyboard, certain keys of which can be depressed simultaneously and certain keys of which each control simultaneously several characters belonging to groups which each correspond to a distinct print point, the keyboard further comprising spacing keys, and a printing mechanism which includes a carriage and a driving element; the improvements comprising:

an escapement mechanism which controls the advance of said carriage; this mechanism comprising a roatatble cogged escapement wheel(FIGS. 24 to 28) provided with mobile cogs, each being displaceable between a stop position (FIG. 25) and an escapement position, with a stop (1018) arranged in the path of movement of the cogs which are in stop position, the length of the escapement thus corresponding to the number of cogs placed in escapement position, and the escapement mechanism comprising a fixed helicoidal cam (1120 FIG. 24) arranged in the path of movement of the cogs which are in escapement position to return them into stop position;

the printing mechanism comprising type-bars and intermediary levers, and the escapement mechanism comprising, at least for certain character groups, a group escapement paddle situated in the path of movement of the intermediary levers by means of which the driving element controls the type-bars of the group under consideration, a switch arranged in the path of movement of this group escapement paddle (992 and 994 FIG. 49b) and an electromagnet (941 FIG. 49c) to which the switch is connected, arranged opposite the cog stopped at the place corresponding to the group under consideration, so that the electromagnet places the cog in its escapement position each time that a character of the group under consideration is typed; for certain groups the consideration is typed; for certain groups the electromagnet (FIG. 45) being arranged so that the cog whose displacement it controls is situated in its magnetic field, the cog being of a magnetic material so that it is placed in its escapement position directly by the magnetic field when the electromagnet is energized.

7. A keyboard-controlled device comprising:

a syllabic-keyboard, certain keys of which can be depressed simultaneously and certain keys of which each control simultaneously several characters belonging to groups which each correspond to a distinct printing point, the keyboard further comprising spacing keys, and a printing mechanism which includes a carriage and a driving element; the improvements comprising:

an escapement mechanism which controls the advance of said carriage, this mechanism comprising a rotatable cogged escapement wheel (FIGS. 24 to 28) provided with mobile cogs, each cog being displaceable between a stop position (FIG. 25) and an escapement position, and with a stop (1018) arranged in the path of movement of the cogs which are in stop position, the length of the escapement thus corresponding to the number of cogs placed in escapement position, and the escapement mechanism comprising a fixed helicoidal cam (1120 FIG. 24) arranged in the path of movement of the cogs in the escapement position for returning them into stop position;

the printing mechanism comprising type-bar groups each of which corresponds to a character group, and a driving element which drives the type-bars; the escapement wheel being provided at least with as many electromagnets as there are character groups, a first electromagnet corresponding to the first character group being arranged opposite the cog which is against the stop, for shifting this cog in escapement position, each of the other electromagnets corresponding to each of the other character groups respectively being arranged opposite one of the next consecutive cogs for shifting each of them in escapement position; the escapement device comprising switches each corresponding to one of the character groups and being connected to the electromagnet which corresponds to said group, each of said switches having a lever situated in the path of movement of parts set in motion for printing the characters of the corresponding group, so that each electromagnet places in escapement position the cot stopped at the place corresponding to the group under consideration each time that a character of this group is typed;

for certain groups of type-bars each corresponding to a given character group, the lever (996, 998 FIG. 35) of the switch (995, 997 FIGS. 35 and 47) which connects the corresponding electromagnet for displacing the cog of the escapement wheel stopped in the place which corresponds to the group under consideration being arranged in the path of movement of the upper parts of the type-bars of the considered group, in the region toward which these paths of movement converge, this lever being struck by each type-bar of this group, said groups having then no escapement paddle.

8. A keyboard-controlled device comprising:

a syllabic keyboard, certain keys of which can be depressed simultaneously and certain keys of which each control simultaneously several characters belonging to groups which each correspond to a distinct printing point, the keyboard further comprising spacing keys, and a printing mechanism which includes a carriage; the improvements comprising:

an escapement mechanism which controls the advance of said carriage, this mechanism comprising a rotatable cogged escapement wheel (FIGS. 24 to 28) provided with mobile cogs, each cog being displaceable between a stop position (FIG. 25) and an escapement position, and with a stop (1018) arranged in the path of movement of the cogs which are in stop position, the length of the escapement thus corresponding to the number of cogs placed in escapement position, and the escapement mechanism comprising a fixed helicoidal cam (1120 FIG. 24) arranged in the path of movement of the cogs which are in escapement position for returning them into stop position;

the printing mechanism comprising type-bar groups each of which corresponds to a character group; the keyboard being constituted by electric switches; the escapement wheel being provided, for each group of type-bars, with an electromagnet (941 to 945 FIG. 44 or 951 to 955 FIG. 46) disposed opposite the cog of the escapement wheel stopped at the place which corresponds to the respective group, so that, when it is energized, the electromagnet displaces the cog, the electromagnet which corresponds to the third group and that which corresponds to each of the next consecutive groups respectively being each connected through respective diodes (FIG. 47) to each of circuits closed by the character keys of the group to which it corresponds, so that the cog corresponding to each of these groups is shifted into its escapement position as soon as one of the corresponding key is struck, but the wheel is unable to turn until the cog corresponding to the first group is no longer halted by the stop, the electromagnet (942 FIGS. 47 and 44, or 952 FIG. 46) corresponding to the second group being connected in circuit by a switch (997 FIGS. 35, 49 and 47) the lever of which (998 FIGS. 35 and 49) is arranged in the path of movement of the upper parts of the type-bars of this second group, the electromagnet corresponding to the first group being connected in circuit by a switch (995 FIGS. 35 and 47) the lever of which (996 FIG. 35) is situated in the path of movement of the upper parts of the type-bars of this first group and also, through a diode (FIG. 47), by the switch (997 FIGS. 35, 49 and 47) the lever of which (998 FIG. 35) is arranged in the path of movement of the upper part of the type-bars belonging to the second group, so that an escapement is produced even if a character of the second group is printed without printing of a character in the first group, but not vice versa.

9. A keyboard-controlled device comprising:

a syllabic-keyboard certain keys of which can be depressed simultaneously and certain keys of which each control simultaneously several characters belonging to groups which each correspond to a distinct printing point, the keyboard further comprising spacing keys, and a printing mechanism which includes a carriage; the improvements comprising:

an escapement mechansim which controls the advance of said carriage, this mechanism comprising a rotatable cogged escapement wheel (FIGS. 24 to 28) provided with mobile cogs, each cog being displaceable between a stop position (FIG. 25) and an escapement position, and with a stop (1018) arranged in the path of movement of the cogs which are in stop position, the length of the escapement thus corresponding to the number of cogs placed in escapement position, and the escapement mechanism comprising a fixed helicoidal cam (1120 FIG. 24) arranged in the path of movement of the cogs which are in escapement position for returning them into stop position;

the syllabic-keyboard (FIGS. 49 or 50) being made up of electric switches and comprising character keys and spacing keys; the cogged escapement wheel (FIGS. 44 to 46) being provided with electromagnets which each correspond to one of the character groups, that (941 FIG. 44 or 951 FIGS. 46 and 51) which corresponds to the first group being arranged opposite the cog stopped in place (1 FIG. 32) against the stop (3018), and each of the others electromagnets (942 to 945 FIG. 44, or 952 to 955 FIG. 46) being arranged opposite one of the cogs stopped in the next consecutive places (2 to 5 FIGS. 24 and 27) which corresponds to the other groups (II to V) respectively, each electromagnet being supplied by a circuit which is closed by one of the elements which are set in motion when a character of the corresponding group is printed and thus displacing the cog halted opposite it, so that if one or more character keys are simultaneously depressed, without depressing any of the keys controlling a space, the number of cogs placed in the escapement position and the length of the escapement obtained are represented by the order of the highest group in which a character has been printed; the circuit of the second group (II 942 FIG. 47) being also connected through a diode to the input of the electromagnet associated with the first group (I 941) so that the cog against the stop is moved into its escapement position even if a character of the second group is printed without printing a character of the first group; the wheel being provided with a supplementary electromagnet (VI 1000 FIG. 51) arranged opposite the first cog which does not correspond to a character group, the mechanism comprising an electromagnetic relay (1008 FIG. 51) with as many pairs of change-over contacts (1001 to 1005) as there are character groups, the electromagnets (951 to 955) corresponding to the character groups (I to V) respectively being normally connected through the normally-closed contacts of the relay when the relay (1008) is not energized, but being connected through the normally-open contacts of the relay when the relay is energized, this providing a transposition by virtue of which the circuit corresponding to each group supplies the electromagnet of the next group, so that the circuit which normally supplies the electromagnet (955) corresponding to the final character group (V) supplies the supplementary electromamgnet (VI 1000 FIG. 51); the circuit (ESP.) which is connencted to the relay being closed by each space key, and by each character key that must provide a space automatically in combinantion with characters, and being, in addition, connected through a diode to the input circuit of the electromagnet (951) associated with the first group, so that depressing any of these keys places the cog stopped against the stop in its escapement position and simultaneously carries out the transposition to increase by one unit the number of cogs placed in the escapement position.