US2317496A - Printing telegraph apparatus - Google Patents
Printing telegraph apparatus Download PDFInfo
- Publication number
- US2317496A US2317496A US399062A US39906241A US2317496A US 2317496 A US2317496 A US 2317496A US 399062 A US399062 A US 399062A US 39906241 A US39906241 A US 39906241A US 2317496 A US2317496 A US 2317496A
- Authority
- US
- United States
- Prior art keywords
- detent
- arm
- stop
- abutment
- shaft
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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Classifications
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L17/00—Apparatus or local circuits for transmitting or receiving codes wherein each character is represented by the same number of equal-length code elements, e.g. Baudot code
- H04L17/16—Apparatus or circuits at the receiving end
- H04L17/24—Apparatus or circuits at the receiving end using mechanical translation and type-head printing, e.g. type-wheel, type-cylinder
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L19/00—Apparatus or local circuits for step-by-step systems
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T74/00—Machine element or mechanism
- Y10T74/15—Intermittent grip type mechanical movement
- Y10T74/1502—Escapement
Definitions
- the present invention relates to the control of escapement devices by means of electrical impulses and one of its objects is to enable an escapement device to be controlled by an electromagnet operated directly by received impulses and to reduce the work to be done by the electromagnet to a minimum.
- an arrangement for controlling the operation of an escapement device by means of electrical impulses comprises a receiving electromagnet arranged to respond. to said impulses and a mechanical relay device arranged to relay the movements of the armature of said electromagnet to said escapement device.
- the invention is particularly applicable to printing telegraph apparatus of the step-by-step type and according to this feature, such apparatus includes means arranged to be driven from a power shaft under the control of an escapement device to which the movements of the armature of a receiving electromagnet are arranged to be relayed by a mechanical relay device.
- a typewheel I is mounted on a typewheel spindle 2 arranged to be rotated by gearing (not shown) driven by a. coiled spring (not shown) maintained under tension either manually or by an electric motor.
- An escapement spindle 5 is driven from the typewheel spindle 2 via gearing 3, 4.
- the escapement spindle 5 is normally prevented from rotating by means of corresponding two stop arms 6 and I carried by the escapement spindle 5 and arranged to engage two detent levers 8 and 9.
- the detent lever 8 is provided with three arms I9, I I, I2 and the detent lever 9 is similarly provided with three arms I 3, I4, I5; the arms I and I3 serving to engage the stop arms 8 and 9.
- the second arm I2 of the detent lever B is connected by a link I6 to an arm I!
- a rock-shaft I8 which carries at its other end an abutment lever I 9 adapted to co-operate with an abutment 20 carried by the armature 2
- the arm l carried by the other detent lever 9, is connected by a link 23 to an arm 24 carried on a second rock-shaft 25 carrying a sec- 0nd abutment lever 26 adapted to co-operate with the abutment 20.
- the third arm II of the detent lever 8 is adapted to co-operate with corresponding resetting rollers 2I, 28 carried by the stop arm 6.
- the third arm I4 of the detent lever 9 is adapted to co-operate with corresponding resetting rollers 29, 30 carried by the stop arm 1.
- Each detent lever B, 9 is acted on by a spring 3 I, 32, tending to withdraw the detent lever from engagement with its associated stoparm 6, I.
- the stop arms 6, I and resetting rollers 21, 28, 29, 39 are so arranged that when one stop arm 6 or I is abutting against the arm ID or I3 of the associated detents lever B or 9, the resetting roller (e. g.
- the abutment 20 is free to move between two adjustable stops 33 and 34 in direct response to the incoming impulses. If the abutment 20 is in the position shown, the typewheel I will remain stationary in the position shown until the next impulse is received. When this occurs, the abutment 20 moves from under the abutment lever I9 to a position under the abutment lever 26. The abutment lever I9 is thereby released and permits the spring 31 to withdraw the detent arm II] from engagement with the stop arm 6 thereby leaving the typewheel I free to rotate.
- the stop arms 6, I are driven via the step-up gearing 3, 4, thereby causing the resetting roller 29 to move clear of the arm I4 thereby permitting the spring 32 to rotate the detent lever 9 through a small angle to cause the end of the abutment lever 26 to fall onto the end of the abutment 20. rotation of the detent lever 9 is thus prevented so that the detent arm I3 is held in the path of the stop arm I, so as to bring the typewheel I to rest after having moved through an angular distance corresponding to that between adjacent letters on the typewheel.
- the rotation of the escapement spindle 5 also causes the resetting roller 21 to engage the arm I I of the detent lever 8, so as to rotate the detent lever 8 in a clockwise direction to raise the free end of the abutment lever I9 above the level of Further arms [0, I3 out of engagement with the stop arms 6, 1, is small so that the springs 3
- an escapement for controlling the rotation of said shaft comprising a pair of stop arms secured to said shaft, said stop arms being angularly displaced in respect to each other, a detent for each stop arm, means on each stop arm disposed to move with the rotation of the shaft the corresponding detent into the rotary path of the stop arm and to thereby stop said shaft, spring means individual to each detent tending to move said detents out of the path of said stop arms and thus release said shaft for rotation, and means comprising a relay for controlling the operation of said detents by said spring means.
- a rotary shaft an escapement for controlling the rotation of said shaft comprising a pair of stop arms angularly displaced from each other secured to said shaft, a detent for each stop arm, an abutment lever coupled to each detent so as to oscillate therewith, means on each stop arm disposed so as to move with the rotation of the shaft the associated detent into the rotary path of a stop arm and to thereby stop said shaft, spring means individual to each detent tending to move said detents out of the path of said stop arms and thus release said shaft for rotation, a line relay having an armature adapted to rest in either of two positions, an abutment on said armature adapted to be engaged in either of said positions by one of said abutment levers, said abutment being effective when said armature is at rest to prevent said spring means from moving said detents.
- a rotary shaft an escapement for controlling the rotation of said shaft comprising a pair of stop arms angularly displaced from each other secured to said shaft, a detent comprising a plurality of arms for each stop arm, an abutment lever coupled to one arm of each detent so as to oscillate therewith, means on each stop arm disposed so as to move with the rotation of the shaft the associated detent into the rotary path of a stop.
- a line relay having an armature adapted to rest in either of two positions, an abutment on said armature adapted to be engaged in either of said positions by one of said abutment levers, said abutment being effective when said armature is at rest to prevent the oscillation of the abutment lever engaged thereby.
- a. rotary shaft an escapement for controlling the rotation of saidshaft comprising a pair of stop arms angularly displaced'from each other secured to said shaft, a detent for each stop arm, a pair of arms secured to each detent, a projection from each stop arm adapted during rotation of said shaft to engage one of the arms secured to the associated detent and move the detent into the path of the stop arms thereby stopping said shaft, spring means operable on said detents tending to move them from the path of said stop arms thereby releasing said shaft for rotation, a line relay comprising an armature, and mechanical means connected to an arm of each detent and controlled by said armature for controlling the effect of said spring means on said detents.
- each stop arm comprises a pair of stop members spaced apart.
- each detent is rocked during the rotary movement of the shaft by a pair of projecting members carried by the stop arms, and in which the rocking motion of said detents is blocked by the armature when it moves from one position to another.
- detents comprise trifurcated members, one arm of which serves as a detent, another which cooperates with the stop arm to restore the detent into the rotary path thereof, and the third being mechanically connected to an abutment lever.
Description
April 1943- A. E THOMPISON ETAL 2,317,496
PR INT ING TELEGRAPH APPARATUS Filed June 21, 1941 Patented Apr. 27, 1943 PRINTING TELEGRAPH APPARATUS Alfred Edward Thompson and Reginald Dennis Salmon, Croydon, England, assignors to Creed and Company Limited, Croydon, England Application June 21, 1941, Serial No. 399,062 In Great Britain July 26, 1940 7 Claims.
The present invention relates to the control of escapement devices by means of electrical impulses and one of its objects is to enable an escapement device to be controlled by an electromagnet operated directly by received impulses and to reduce the work to be done by the electromagnet to a minimum.
According to the invention, an arrangement for controlling the operation of an escapement device by means of electrical impulses comprises a receiving electromagnet arranged to respond. to said impulses and a mechanical relay device arranged to relay the movements of the armature of said electromagnet to said escapement device.
The invention is particularly applicable to printing telegraph apparatus of the step-by-step type and according to this feature, such apparatus includes means arranged to be driven from a power shaft under the control of an escapement device to which the movements of the armature of a receiving electromagnet are arranged to be relayed by a mechanical relay device.
An embodiment of the invention will now be described by way of the example, reference being I made to the accompanying drawing which shows portion of a printing telegraph receiver of the step -by-step type according to the invention.
In the arrangement shown in the drawing,
a typewheel I is mounted on a typewheel spindle 2 arranged to be rotated by gearing (not shown) driven by a. coiled spring (not shown) maintained under tension either manually or by an electric motor. An escapement spindle 5 is driven from the typewheel spindle 2 via gearing 3, 4.
The escapement spindle 5 is normally prevented from rotating by means of corresponding two stop arms 6 and I carried by the escapement spindle 5 and arranged to engage two detent levers 8 and 9. The detent lever 8 is provided with three arms I9, I I, I2 and the detent lever 9 is similarly provided with three arms I 3, I4, I5; the arms I and I3 serving to engage the stop arms 8 and 9. The second arm I2 of the detent lever B is connected by a link I6 to an arm I! on one end of a rock-shaft I8, which carries at its other end an abutment lever I 9 adapted to co-operate with an abutment 20 carried by the armature 2| of an electromagnet 22 which is arranged to receive incoming telegraphic signals transmitted by a step-by-steptelegraph transmitter. The arm l carried by the other detent lever 9, is connected by a link 23 to an arm 24 carried on a second rock-shaft 25 carrying a sec- 0nd abutment lever 26 adapted to co-operate with the abutment 20.
The third arm II of the detent lever 8 is adapted to co-operate with corresponding resetting rollers 2I, 28 carried by the stop arm 6. Similarly, the third arm I4 of the detent lever 9 is adapted to co-operate with corresponding resetting rollers 29, 30 carried by the stop arm 1. Each detent lever B, 9 is acted on by a spring 3 I, 32, tending to withdraw the detent lever from engagement with its associated stoparm 6, I. The stop arms 6, I and resetting rollers 21, 28, 29, 39 are so arranged that when one stop arm 6 or I is abutting against the arm ID or I3 of the associated detents lever B or 9, the resetting roller (e. g. 29) associated with the third arm I4 or II of the other detent lever 9 or 8, is co-operating therewith to lift the abutment lever 26 or I9 clear of the upper end of the abutment 20 on the armature 2| of the electromagnet 22. At this instant, the abutment lever I9 or 26 associated with the other detent lever 9 or 8 is resting on the upper end of the abutment 20, thereby preventing the associated detent arm ID or I3 from withdrawing from the associated stop arm 6 or 1.
The abutment 20 is free to move between two adjustable stops 33 and 34 in direct response to the incoming impulses. If the abutment 20 is in the position shown, the typewheel I will remain stationary in the position shown until the next impulse is received. When this occurs, the abutment 20 moves from under the abutment lever I9 to a position under the abutment lever 26. The abutment lever I9 is thereby released and permits the spring 31 to withdraw the detent arm II] from engagement with the stop arm 6 thereby leaving the typewheel I free to rotate. During the rotation of the typewheel, the stop arms 6, I are driven via the step-up gearing 3, 4, thereby causing the resetting roller 29 to move clear of the arm I4 thereby permitting the spring 32 to rotate the detent lever 9 through a small angle to cause the end of the abutment lever 26 to fall onto the end of the abutment 20. rotation of the detent lever 9 is thus prevented so that the detent arm I3 is held in the path of the stop arm I, so as to bring the typewheel I to rest after having moved through an angular distance corresponding to that between adjacent letters on the typewheel.
The rotation of the escapement spindle 5 also causes the resetting roller 21 to engage the arm I I of the detent lever 8, so as to rotate the detent lever 8 in a clockwise direction to raise the free end of the abutment lever I9 above the level of Further arms [0, I3 out of engagement with the stop arms 6, 1, is small so that the springs 3|, 32 may be fairly light. Only a small area of engagement is required between the abutment levers I9, 26
and the abutment so that the travel of the armature 2| can be reduced to a minimum, thereby reducing the amount of power required to operate it.
What is claimed is:
1. In a printing telegraph apparatus a rotary shaft, an escapement for controlling the rotation of said shaft comprising a pair of stop arms secured to said shaft, said stop arms being angularly displaced in respect to each other, a detent for each stop arm, means on each stop arm disposed to move with the rotation of the shaft the corresponding detent into the rotary path of the stop arm and to thereby stop said shaft, spring means individual to each detent tending to move said detents out of the path of said stop arms and thus release said shaft for rotation, and means comprising a relay for controlling the operation of said detents by said spring means.
2. In a printing telepgraph apparatus, a rotary shaft, an escapement for controlling the rotation of said shaft comprising a pair of stop arms angularly displaced from each other secured to said shaft, a detent for each stop arm, an abutment lever coupled to each detent so as to oscillate therewith, means on each stop arm disposed so as to move with the rotation of the shaft the associated detent into the rotary path of a stop arm and to thereby stop said shaft, spring means individual to each detent tending to move said detents out of the path of said stop arms and thus release said shaft for rotation, a line relay having an armature adapted to rest in either of two positions, an abutment on said armature adapted to be engaged in either of said positions by one of said abutment levers, said abutment being effective when said armature is at rest to prevent said spring means from moving said detents.
3. In a printing telegraph apparatus, a rotary shaft, an escapement for controlling the rotation of said shaft comprising a pair of stop arms angularly displaced from each other secured to said shaft, a detent comprising a plurality of arms for each stop arm, an abutment lever coupled to one arm of each detent so as to oscillate therewith, means on each stop arm disposed so as to move with the rotation of the shaft the associated detent into the rotary path of a stop. arm and to thereby stop said shaft, spring means individual to each detent tending to move said detents out I of the path of said stop arms and thus release said shaft for rotation, a line relay having an armature adapted to rest in either of two positions, an abutment on said armature adapted to be engaged in either of said positions by one of said abutment levers, said abutment being effective when said armature is at rest to prevent the oscillation of the abutment lever engaged thereby.
4. In a printing telegraph apparatus, a. rotary shaft, an escapement for controlling the rotation of saidshaft comprising a pair of stop arms angularly displaced'from each other secured to said shaft, a detent for each stop arm, a pair of arms secured to each detent, a projection from each stop arm adapted during rotation of said shaft to engage one of the arms secured to the associated detent and move the detent into the path of the stop arms thereby stopping said shaft, spring means operable on said detents tending to move them from the path of said stop arms thereby releasing said shaft for rotation, a line relay comprising an armature, and mechanical means connected to an arm of each detent and controlled by said armature for controlling the effect of said spring means on said detents.
5. An escapement according to claim 4 in which each stop arm comprises a pair of stop members spaced apart.
6. An escapement according to claim 4 in which each detent is rocked during the rotary movement of the shaft by a pair of projecting members carried by the stop arms, and in which the rocking motion of said detents is blocked by the armature when it moves from one position to another. 7
7. An escapement according to claim 4 in which said detents comprise trifurcated members, one arm of which serves as a detent, another which cooperates with the stop arm to restore the detent into the rotary path thereof, and the third being mechanically connected to an abutment lever.
ALFRED EDWARD THOMPSON. REGINALD DENNIS SALMON.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
GB12205/40A GB542778A (en) | 1940-07-26 | 1940-07-26 | Improvements in or relating to escapement devices, particularly for printing telegraph apparatus |
Publications (1)
Publication Number | Publication Date |
---|---|
US2317496A true US2317496A (en) | 1943-04-27 |
Family
ID=10000262
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US399062A Expired - Lifetime US2317496A (en) | 1940-07-26 | 1941-06-21 | Printing telegraph apparatus |
Country Status (4)
Country | Link |
---|---|
US (1) | US2317496A (en) |
BE (1) | BE472811A (en) |
FR (1) | FR942053A (en) |
GB (1) | GB542778A (en) |
-
0
- BE BE472811D patent/BE472811A/xx unknown
-
1940
- 1940-07-26 GB GB12205/40A patent/GB542778A/en not_active Expired
-
1941
- 1941-06-21 US US399062A patent/US2317496A/en not_active Expired - Lifetime
-
1947
- 1947-02-22 FR FR942053D patent/FR942053A/en not_active Expired
Also Published As
Publication number | Publication date |
---|---|
GB542778A (en) | 1942-01-27 |
BE472811A (en) | |
FR942053A (en) | 1949-01-28 |
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