US1822088A - Continuous inductive train control system - Google Patents
Continuous inductive train control system Download PDFInfo
- Publication number
- US1822088A US1822088A US366879A US36687929A US1822088A US 1822088 A US1822088 A US 1822088A US 366879 A US366879 A US 366879A US 36687929 A US36687929 A US 36687929A US 1822088 A US1822088 A US 1822088A
- Authority
- US
- United States
- Prior art keywords
- track
- circuit
- relay
- energy
- current
- 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
Links
Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61L—GUIDING RAILWAY TRAFFIC; ENSURING THE SAFETY OF RAILWAY TRAFFIC
- B61L3/00—Devices along the route for controlling devices on the vehicle or vehicle train, e.g. to release brake, to operate a warning signal
- B61L3/16—Continuous control along the route
- B61L3/22—Continuous control along the route using magnetic or electrostatic induction; using electromagnetic radiation
- B61L3/221—Continuous control along the route using magnetic or electrostatic induction; using electromagnetic radiation using track circuits
- B61L3/222—Arrangements on the track only
Definitions
- This invention relates in general to automatic train control systems, and has more particular reference to means in coded continuous types of train control systems for assuring the picking up of track relays immediately after their blocks have been vacated.
- the track relay is operated by its normal track circuit energy as soon as its block is vacated.
- Fig. 1 is a diagrammatic view of one form of applicants invention.
- Fig. 2 is a diagrammatic view of a second form of applicants invention.
- a stretch of track constituted by track rails 1, furnished with insulating joints 2 for separating it into usual section blocks such as H, I and J.
- a wayside signal 3 operated by any usual or desired means (not shown), by means of a track relay TR connected across the entrance end of each block.
- Paralleling the rails 1 is a cycle, and a 100 cycle, transmission line L and L respectively.
- a control relay OR At each signal location is a control relay OR, a coding motor OM having code wheels G and Y for operating respective code fingers g and 3 to various of their indicated positions a, b and c, and a transformer T for supplying track circuit, and also train control, current to the track rails 1.
- the transformer T has its primary con nected across the 60 cycle transmission line through a contact finger -1- and back point of relay OB, relay OR having a second contact finger 5 for controlling flow of energy, through a front point, to the coding motor OM from the 100 cycle line.
- the code wheels G and Y are toothed for vibrating their fingers g and y when they are rotated, to move the fingers between the positions a and b.
- On the wheel G is a relatively long and deep cut out portion 6 eX- tending inwardly of the wheel further than the roots of the teeth, and comprising a relay pick up depression, with a like pick up depression 6 in the wheel Y.
- These pick up depressions are deep enough to permit the respective fingers g and y to move to the positions 0, for a purpose to be eX- plained below.
- track relay TR On a train passing over track rails 1 and entering block I, track relay TR" releases to drop its contact finger 6 and thus com plete a pickup circuit for relay OR which includes, one wire of the 60 cycle transmission line, contact finger 6 and back point of relay TR", the two windings of the two element relay OB and wires 8 and 9 to the other side of the 60 cycle transmission line.
- contact finger t disconnects the 60 cycle line from the primary of transformer T, which is normally supplied with 60 cycle energy through a circuit including one wire of the 60 cycle line, wires 9, 8 and 9 the transformer primary, wire 10, contact finger at and back point of relay OR, and back to the other side of the 60 cycle source.
- the track relays TB etc. are designed to respond to 60 cycle current, and that it is desirable to use train control current of a different, and
- the picking up of relay CR places the primary of transformer T across the 100 cycle line L through a circuit including one side of the transmission line L wires 9, 8 and 9 the primary of transformer T, wires 10 and 11, contact finger 12 and either front or back point of track relay TR, code finger g or g when in the a position, current limiting resistance 13, contact finger 5 and front point of relay OR, and back to the other side of the 100 cycle line. From this circuit it can be seen that 100 cycle energy is placed on the track rails through the trans former T, and is controlled by one of the other of the coding fingers g or y, depending on whether the block J, in advance of block I, is unoccupied, or is occupied, re spectively.
- the coding motor OM is cut into operation by the picking up of relay OR, through a circuit which includes one side of the 100 cycle line, wire 9, the motor OM, contact finger and front point of relay OR, and back to the other side of the 100 cycle line.
- the cut-out portion 6, for example, on code wheel G operates once during each rotation of wheel G to allow coding finger g to move over to position 0, whereby to complete a circuit for placing 6O cycle, or track circuit energy onto the track rails, such circuit including one wire of the 60 cycle line, wires 9, 8 and 9 primary of transformer T, wires 10 and 11, contact finger 12 and (in the present case) front point of relay TR, coding finger g in its a position, and back to the other side of the (30 cycle line.
- the track' circuit energy of cycles is applied intermittently to the track rails during occupancy. That is, during coding, for a short period of' time on each rotation of the code wheels, the track circuit energy is steadily applied, whereby, as soon as the block in question is vacated, its track relay being supplied with the energy for which it is designed, picks up so as to drop the control relay CR, to thus de-energize the code motor CM and cut in the 60 cycle line the same as before occupancy.
- Fig. 2 is shown a slightly modified form of applicants invention, wherein the code motor GM has code wheels G and Y which do not include the deeply cut pick-up portions such as 6 and 6 in Fig. 1.
- the code'motor (1M however, includes a pick up wheel 14 which has a deeply cut-out pick up portion 15, so as to permit a finger 1G, controlled thereby, to contact with its back point for a limited time, during each rotation of the code wheels G etc.
- the pick up wheel 14 which is mounted to rotate at the same speed as the code wheels G and Y and preferably is mounted on the same shaft with the code wheels, operates intermittently to place track circuit current onto the track rails for a sufficient period of time to pick up the track relay if the block be unoccupied.
- the coding motor can be equipped with any desired number of code wheels and can operate to place coded current onto the track rails by any usual or desirable means other than toothed wheels.
- a track circuit including a track relay, a source of track circuit energy, current coding means for placing coded current in the form of relatively short on rent impulses on the track circuit, a source of coding energy, and means to intermittently interrupt the application of coded energy, and apply track circuit energy for a relatively long period, to the track circuit.
- a track circuit including a track relay, a source of track circuit energy, current coding means, a source of coding energy, means to cut off track circuit energy from the track circuit during application of coded energy to the track circuit, and means to intermittently interrupt the application of coded energy, and apply track circuit energy, to the track circuit.
- a track circuit including a track relay, a source of track circuit energy, current coding means for supplying, at any one time, any one of a plurality of distinctive codes, a source of coding energy different from said track circuit energy and of a character incapable of operating the track relay, and means to intermittently interrupt the application of coded energy,
- a track relay connected across one end of the section, a coder, a source of track circuit energy and a source of train control energy, means controlled by the track relay for energizing the coder, cutting track circuit current oil of the section, and cutting train control current onto the section under control of said coder, and means during operation of said coder for intermittently, for a limited time, replacing coded energy by track circuit energy.
- a coded continuous train control system in combination, an insulated section of track, a track relay connected across one end of the section, a coder, a source of track circuit energy and a source of train control energy, means controlled by the track relay releasing upon occupancy of the section for energizing the coder, cutting track circuit energy ofi o1 the section, and cutting train control energy onto the section under control of said coder, said track relay being nonresponsive to the coded energy, and means during operation of said coder for intermittently, and for a limited time, replacing coded energy by track circuit energy.
- a coded continuous train control system in combination, an insulated section of track, a track relay connected across one end of the section, a coder, a source of alternating current track circuit energy and a source of train control energy of dififerent frequencies, means controlled by the track relay for energizing the coder, cutting track circuit energy off of the section, and cutting train control energy onto the section under control of said coder, and means during operation of said coder for intermittently, and for a limited time, replacing coded energy by track circuit energy.
- a coded continuous train control system in combination, an insulated stretch of track, a track relay connect-er. across one end of said stretch, a first normally closed circuit for applying track circuit current to said stretch, and a second normally open circuit for applying train control current to said stretch, a normally de-energized coder, release of said track relay operating to energize the coder, break said first circuit and make said second circuit, said coder operating When energized to make and break said second circuit at relatively short intervals to apply coded current to said stretch, and to intermittently hold the second circuit open While holding the first circuit closed for a relatively long interval.
- a coded continuous train control system in combination, an insulated stretch of track, a track relay connected across one end of said stretch, a first normally closed circuit for applying track circuit current to said stretch, a second normally open circuit for applying train control current to said stretch, of a character to Which said relay Will not respond, a normally de-energized coder, release of said track relay operating to energize the coder, break said first circuit and 'make said second circuit, said coder operating when energized to make and break said second circuit to apply coded current in the form of a plurality of current impulses separated by current-off periods, to said stretch, and to intermittently hold the second circuit open While holding the first circuit closed during said current-off periods.
- a coded continuous train control system in combination, an insulated stretch of track, a track relay connected across one end of said stretch, a first normally closed circuit for applying track circuit current to said stretch, and a second normally open circuit for applying train control current to said stretch, a normally de-energized coder, release of said track relay operating to energize the coder, break said first circuit and make said second circuit, said coder operating when energized to make and break said second circuit to apply coded current to said stretch, and to intermittently hold the second circuit open While holding the first circuit closed, said coder including a member having cut-out and under-cut-out portions and a contact finger operated by said member to control the first and second circuit.
- a coded continuous train control system in combination, an insulated stretch of track, a track relay connected across one end of said stretch, a first normally closed circuit for applying track circuit current to said stretch, a second normally open circuit for applying train control current, of a character to which said relay Will not respond, to said stretch, and a normally deenergized coder, release of said track relay operating to energize the coder, break said first circuit and make said second circuit, said coder operating When energized to make and break said second circuit to apply coded current to said stretch, and to intermittently hold the second circuit open While holding the first circuit closed, said coder including a member having cut-out portions of varying depths and a contact finger operated by said member to control the first and second circuit.
- a track relay responsive to track circuit current but non-responsive to coded train control current, releases on occupancy of its block to energize a coder and to cut normally applied track current oil of the block and cut train control current, controlled by the coder, onto the block; the method for insuring pick-up of the track relay on unoccupancy of its block, comprising intermittently applying to the block, during the operation of the coder, track circuit current for a time suificient to pick up the track relay if its block be unoccupied, but for a time insufiicient to interfere With the response of receiving means to the coded current.
- a coded continuous train control system in combination, an insulated stretch of track, a track relay connected across one end of said stretch, a first normally closed circuit for applying track circuit current to said stretch, a second normally open circuit for applying train control current, of a character-to Which said relay will not respond, to said stretch, and a normally de-energized coder, release of said track relay operating to energize the coder, break said first circuit and make said second circuit, said coder operating when energized to make and break said second circuit to apply coded current to said stretch, and to intermittently hold the second circuit open While holding the first circuit closed, said coder including a code member incapable of making said first circuit, and a separate member capable of intermittently making said first circuit.
Landscapes
- Physics & Mathematics (AREA)
- Electromagnetism (AREA)
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Train Traffic Observation, Control, And Security (AREA)
Description
Sept. 8, 1931. w. D. HAILES CONTINUOUS INDUGTIVE TRAIN CONTROL SYSTEM Filed May 29. 1929 MATTORNEY I FIG.Z.
Patented Sept. 8 1931 UNITED STATES A'HENT OFFICE WILLIAM D. HAILES, OF ROCHESTER, NEW YCRK, ASSIGNOR TO GENERAL RAILWAY SIGNAL COMPANY; OF ROCHESTER, NEW YORK CONTINUOUS INDUCTIVE TRAIN CONTROL SYSTEM Application filed May 29,
This invention relates in general to automatic train control systems, and has more particular reference to means in coded continuous types of train control systems for assuring the picking up of track relays immediately after their blocks have been vacated.
It is the practice in train control systems such as shown, for example, in the W. DJ in Hailes application Ser. No. 249,457 filed January 25, 1928, to provide means for automatically initiating the coding motor for placing coded energy onto the track rails and for simultaneously cutting the usual track circuit energy off of the track rails. In such circumstances, if a track relay is of such a character as to not respond to the coding energy, on any particular block being vacated, the track relay for that block may very well remain down to thus hold up traffic unnecessarily. In the particular application referred to, a direct current track relay is employed, and coded direct current energy is used, so that the track relay is responsive to the coded energy and hence picks up as soon as its block is vacated.
In the IV. D. Hailes application, Ser. No. 228,059, filed October 22, 1927, a direct current track relay is employed in connection with a direct current track circuit, while coded alternating current is applied to the track rails of a block during its occupancy. In this case there is no necessity for cutting the track circuit energy off of the track rails during the application of coded current, so
that the track relay is operated by its normal track circuit energy as soon as its block is vacated.
In case of the above referred to application Ser. No. 249,457 in which coded direct current is employed, if an alternating current type of relay be used for a track relay in connection with an alternating current track circuit, such a track relay would release on its block being occupied, and would not pick up again on its block being vacated.
Likewise in connection with application Ser. N 0. 228,059, above referred to, in which coded alternating current is employed, if
5!) alternating current relays be used for track 1929. Serial No. 366,879.
relays in connection with alternating current track circuits supplied with alternating current of possibly the same, but preferably different, frequency alternating current, then it would be necessary to disconnect the track circuit energy from the tracks during coding. In this case, on a track circuit being vacated its track relay would not pick up, or at least would be very likely not to pick up, since it would be energized only by coded alternating current, and possibly coded current of a different frequency from that for which the track relay is designed.
From the above it may be stated, in general, that in coded continuous train control s stems where track circuit current is disconnected from the track rails during the application of coded current, and where the track relays used in connection. with the track circuits are not certainly responsive to the coded current, then, to assure that the track relays pick up on vacancy of their re.- spective blocks, some special means must be provided.
With the above and other objects in view, it is proposed, in accordance with this invention, to provide means assuring the picking up of track relays immcdiatel their blocks become vacated. More specifically, it is proposed to provide, in a coded continuous system, means for intermittently applying to the track rails, for a suflicient length of time, a steadily applied track circuit current, whereby to assure the picking up of a track relay immediately its block is vacated.
Further objects, purposes and characteristic features will appear as the description progresses, reference being made to the accompanying drawings, showing, solely by way of example, and in no manner in a limiting sense, two forms which the invention can assume. In the drawings:-
Fig. 1 is a diagrammatic view of one form of applicants invention.
Fig. 2 is a diagrammatic view of a second form of applicants invention.
Referring now to the drawings, and first to Fig. 1, there is here shown a stretch of track constituted by track rails 1, furnished with insulating joints 2 for separating it into usual section blocks such as H, I and J. At the entrance end of each block, travel being in the direction of the arrow, is positioned a wayside signal 3, operated by any usual or desired means (not shown), by means of a track relay TR connected across the entrance end of each block.
Paralleling the rails 1 is a cycle, and a 100 cycle, transmission line L and L respectively.
At each signal location is a control relay OR, a coding motor OM having code wheels G and Y for operating respective code fingers g and 3 to various of their indicated positions a, b and c, and a transformer T for supplying track circuit, and also train control, current to the track rails 1.
The transformer T has its primary con nected across the 60 cycle transmission line through a contact finger -1- and back point of relay OB, relay OR having a second contact finger 5 for controlling flow of energy, through a front point, to the coding motor OM from the 100 cycle line.
Since the various instrumentalities employed at each signal location are the same, like reference characters with distinctive e2;- ponents are employed to identify like parts at different locations,
The code wheels G and Y are toothed for vibrating their fingers g and y when they are rotated, to move the fingers between the positions a and b. On the wheel G is a relatively long and deep cut out portion 6 eX- tending inwardly of the wheel further than the roots of the teeth, and comprising a relay pick up depression, with a like pick up depression 6 in the wheel Y. These pick up depressions are deep enough to permit the respective fingers g and y to move to the positions 0, for a purpose to be eX- plained below.
On a train passing over track rails 1 and entering block I, track relay TR" releases to drop its contact finger 6 and thus com plete a pickup circuit for relay OR which includes, one wire of the 60 cycle transmission line, contact finger 6 and back point of relay TR", the two windings of the two element relay OB and wires 8 and 9 to the other side of the 60 cycle transmission line.
On relay OR picking up, contact finger t disconnects the 60 cycle line from the primary of transformer T, which is normally supplied with 60 cycle energy through a circuit including one wire of the 60 cycle line, wires 9, 8 and 9 the transformer primary, wire 10, contact finger at and back point of relay OR, and back to the other side of the 60 cycle source.
It should be here explained that the track relays TB etc., are designed to respond to 60 cycle current, and that it is desirable to use train control current of a different, and
preferably higher, frequency than the track circuit current to avoid any interference between the two currents.
The picking up of relay CR places the primary of transformer T across the 100 cycle line L through a circuit including one side of the transmission line L wires 9, 8 and 9 the primary of transformer T, wires 10 and 11, contact finger 12 and either front or back point of track relay TR, code finger g or g when in the a position, current limiting resistance 13, contact finger 5 and front point of relay OR, and back to the other side of the 100 cycle line. From this circuit it can be seen that 100 cycle energy is placed on the track rails through the trans former T, and is controlled by one of the other of the coding fingers g or y, depending on whether the block J, in advance of block I, is unoccupied, or is occupied, re spectively.
The coding motor OM, is cut into operation by the picking up of relay OR, through a circuit which includes one side of the 100 cycle line, wire 9, the motor OM, contact finger and front point of relay OR, and back to the other side of the 100 cycle line.
Thus it is seen that, in a manner very similar to that set forth in the above referred to Hailes applications, upon a block being occupied, its track relay releases to energize a coding motor, which latter operates to disconnect the track circuit energy from the track rails and to substitute for it the train control energy through a circuit including code fingers which are selected in accordance with traffic conditions ahead, (as by means of the track relay finger 12 in the present case).
Thus coded energy is applied to the track rails, and in the absence of such cut-out portions as 6 and 6 on the wheels G and Y, there would be no means of reapplying track circuit energy to the track rails after the block I was vacated. That is, the dropping of track relay TR places coded train control energy on the track rails, and removes track circuit energy therefrom, and to get track circuit energy back onto the rails, it is necessary that the track relay be re-energized.
From the above considerations it is easily seen that the cut-out portion 6, for example, on code wheel G, operates once during each rotation of wheel G to allow coding finger g to move over to position 0, whereby to complete a circuit for placing 6O cycle, or track circuit energy onto the track rails, such circuit including one wire of the 60 cycle line, wires 9, 8 and 9 primary of transformer T, wires 10 and 11, contact finger 12 and (in the present case) front point of relay TR, coding finger g in its a position, and back to the other side of the (30 cycle line.
In this manner the track' circuit energy of cycles is applied intermittently to the track rails during occupancy. That is, during coding, for a short period of' time on each rotation of the code wheels, the track circuit energy is steadily applied, whereby, as soon as the block in question is vacated, its track relay being supplied with the energy for which it is designed, picks up so as to drop the control relay CR, to thus de-energize the code motor CM and cut in the 60 cycle line the same as before occupancy.
In Fig. 2 is shown a slightly modified form of applicants invention, wherein the code motor GM has code wheels G and Y which do not include the deeply cut pick-up portions such as 6 and 6 in Fig. 1. The code'motor (1M however, includes a pick up wheel 14 which has a deeply cut-out pick up portion 15, so as to permit a finger 1G, controlled thereby, to contact with its back point for a limited time, during each rotation of the code wheels G etc.
As in the form shown in Fig. 1, and decribed above, on occupancy of a block, its track relay releases to energize the control relay CR to thereby pick up contact fingers 4 and 5 These operaie in the same manner as in Fig. 1 to cut 60 cycle track circuit current off from the track rails, and to place 100 cycle train control current onto the track rails through a circuit including one side of the 100 cycle level, wires 9 and 8 the primary of transformer T wires 10 and 11 contact finger 16 and front point of wheel 14, contact finger 12 of the track relay next in advance, one or the other of the coding fingers g and 3 depending on trafiic conditions ahead, current limiting resistance 13 and contact finger 5 and front point of relay CR This circuit, in addi tion to the corresponding one in Fig. 1, includes, contact finger 16 and front point of the pick-up wheel 14, whereby the circuit for applying coded 100 cycle current to the track rails is interrupted for a short period during each rotation of the code wheels G and Y by the cut-out portion 15 of wheel 14. During this interruption, 60 cycle track circuit current is reapplied to the track rails through a circuit including one side of the 60 cycle line, wire 18, contact finger 16 and back point of the pick up wheel 14, the primary of transformer T etc.
Thus, in the form of invention shown in Fig. 2, the pick up wheel 14, which is mounted to rotate at the same speed as the code wheels G and Y and preferably is mounted on the same shaft with the code wheels, operates intermittently to place track circuit current onto the track rails for a sufficient period of time to pick up the track relay if the block be unoccupied.
It is, of course, understood that the inter mittent application of track circuit energy during coding is such as not to interfere with the effect of the code on the car-carried receiving apparatus used in connection wit-h the system. In the Hailes applications referred to above there is means provided in the car-carried apparatus for preventing a momentary interruption of code from affecting the indication set up by the receiving means, and thus the described intermittent reapplication of track circuit energy cannot affect the results given by receiving apparatus of this character,
It is to be understood, of course, that the coding motor can be equipped with any desired number of code wheels and can operate to place coded current onto the track rails by any usual or desirable means other than toothed wheels.
The above rather specific description of a device embodying this invention, is given solely by way of illustration, and is not intended, in any manner whatsoever, in a limiting sense. Obviously, this invention can assume many different physical forms, and is susceptible of various modifications, and all such forms and modifications are desired to be included by this invention, as come within the scope of the appended claims.
Having described my invention, I now claim 1. In a coded continuous train control sys tem, in combination, a track circuit including a track relay, a source of track circuit energy, current coding means for placing coded current in the form of relatively short on rent impulses on the track circuit, a source of coding energy, and means to intermittently interrupt the application of coded energy, and apply track circuit energy for a relatively long period, to the track circuit.
2. In a coded continuous train control system, in combination, a track circuit including a track relay, a source of track circuit energy, current coding means, a source of coding energy, means to cut off track circuit energy from the track circuit during application of coded energy to the track circuit, and means to intermittently interrupt the application of coded energy, and apply track circuit energy, to the track circuit.
3. In a coded continuous train control system, in combination, a track circuit including a track relay, a source of track circuit energy, current coding means for supplying, at any one time, any one of a plurality of distinctive codes, a source of coding energy different from said track circuit energy and of a character incapable of operating the track relay, and means to intermittently interrupt the application of coded energy,
and apply track circuit energy, to the track circuit.
4. in a coded continuous train control system, in combination, an 1nsulated section. of.
track, a track relay connected across one end of the section, a coder, a source of track circuit energy and a source of train control energy, means controlled by the track relay for energizing the coder, cutting track circuit current oil of the section, and cutting train control current onto the section under control of said coder, and means during operation of said coder for intermittently, for a limited time, replacing coded energy by track circuit energy.
5. In a coded continuous train control system, in combination, an insulated section of track, a track relay connected across one end of the section, a coder, a source of track circuit energy and a source of train control energy, means controlled by the track relay releasing upon occupancy of the section for energizing the coder, cutting track circuit energy ofi o1 the section, and cutting train control energy onto the section under control of said coder, said track relay being nonresponsive to the coded energy, and means during operation of said coder for intermittently, and for a limited time, replacing coded energy by track circuit energy.
6. In a coded continuous train control system, in combination, an insulated section of track, a track relay connected across one end of the section, a coder, a source of alternating current track circuit energy and a source of train control energy of dififerent frequencies, means controlled by the track relay for energizing the coder, cutting track circuit energy off of the section, and cutting train control energy onto the section under control of said coder, and means during operation of said coder for intermittently, and for a limited time, replacing coded energy by track circuit energy.
7. In a coded continuous train control system, in combination, an insulated stretch of track, a track relay connect-er. across one end of said stretch, a first normally closed circuit for applying track circuit current to said stretch, and a second normally open circuit for applying train control current to said stretch, a normally de-energized coder, release of said track relay operating to energize the coder, break said first circuit and make said second circuit, said coder operating When energized to make and break said second circuit at relatively short intervals to apply coded current to said stretch, and to intermittently hold the second circuit open While holding the first circuit closed for a relatively long interval.
8. In a coded continuous train control system, in combination, an insulated stretch of track, a track relay connected across one end of said stretch, a first normally closed circuit for applying track circuit current to said stretch, a second normally open circuit for applying train control current to said stretch, of a character to Which said relay Will not respond, a normally de-energized coder, release of said track relay operating to energize the coder, break said first circuit and 'make said second circuit, said coder operating when energized to make and break said second circuit to apply coded current in the form of a plurality of current impulses separated by current-off periods, to said stretch, and to intermittently hold the second circuit open While holding the first circuit closed during said current-off periods.
9. In a coded continuous train control system, in combination, an insulated stretch of track, a track relay connected across one end of said stretch, a first normally closed circuit for applying track circuit current to said stretch, and a second normally open circuit for applying train control current to said stretch, a normally de-energized coder, release of said track relay operating to energize the coder, break said first circuit and make said second circuit, said coder operating when energized to make and break said second circuit to apply coded current to said stretch, and to intermittently hold the second circuit open While holding the first circuit closed, said coder including a member having cut-out and under-cut-out portions and a contact finger operated by said member to control the first and second circuit.
10. In a coded continuous train control system, in combination, an insulated stretch of track, a track relay connected across one end of said stretch, a first normally closed circuit for applying track circuit current to said stretch, a second normally open circuit for applying train control current, of a character to which said relay Will not respond, to said stretch, and a normally deenergized coder, release of said track relay operating to energize the coder, break said first circuit and make said second circuit, said coder operating When energized to make and break said second circuit to apply coded current to said stretch, and to intermittently hold the second circuit open While holding the first circuit closed, said coder including a member having cut-out portions of varying depths and a contact finger operated by said member to control the first and second circuit.
11. In a continuous train control system, in which a track relay, responsive to track circuit current but non-responsive to coded train control current, releases on occupancy of its block to energize a coder and to cut normally applied track current oil of the block and cut train control current, controlled by the coder, onto the block; the method for insuring pick-up of the track relay on unoccupancy of its block, comprising intermittently applying to the block, during the operation of the coder, track circuit current for a time suificient to pick up the track relay if its block be unoccupied, but for a time insufiicient to interfere With the response of receiving means to the coded current. 1
12. In a coded continuous train control system, in combination, an insulated stretch of track, a track relay connected across one end of said stretch, a first normally closed circuit for applying track circuit current to said stretch, a second normally open circuit for applying train control current, of a character-to Which said relay will not respond, to said stretch, and a normally de-energized coder, release of said track relay operating to energize the coder, break said first circuit and make said second circuit, said coder operating when energized to make and break said second circuit to apply coded current to said stretch, and to intermittently hold the second circuit open While holding the first circuit closed, said coder including a code member incapable of making said first circuit, and a separate member capable of intermittently making said first circuit.
In testimony whereof I aflix my signature.
WILLIAM D. HAILES.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US366879A US1822088A (en) | 1929-05-29 | 1929-05-29 | Continuous inductive train control system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US366879A US1822088A (en) | 1929-05-29 | 1929-05-29 | Continuous inductive train control system |
Publications (1)
Publication Number | Publication Date |
---|---|
US1822088A true US1822088A (en) | 1931-09-08 |
Family
ID=23444958
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US366879A Expired - Lifetime US1822088A (en) | 1929-05-29 | 1929-05-29 | Continuous inductive train control system |
Country Status (1)
Country | Link |
---|---|
US (1) | US1822088A (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4407470A (en) * | 1981-08-21 | 1983-10-04 | American Standard Inc. | Code reset apparatus for railroad track circuits |
-
1929
- 1929-05-29 US US366879A patent/US1822088A/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4407470A (en) * | 1981-08-21 | 1983-10-04 | American Standard Inc. | Code reset apparatus for railroad track circuits |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US1822088A (en) | Continuous inductive train control system | |
US3218454A (en) | Vehicle control system | |
US2461452A (en) | Code detecting means | |
US2275909A (en) | Trackway apparatus for automatic train control | |
US2439006A (en) | Coded track circuits for highway | |
US2286002A (en) | Railway signaling system | |
US2719909A (en) | Time control of code change in alternating current track circuits for coded railway cab signals | |
US1898478A (en) | Method and apparatus for preventing improper cut-in of cab signals | |
US2169603A (en) | Railway traffic controlling apparatus | |
US2405860A (en) | Railway traffic controlling apparatus | |
US2102988A (en) | Railway traffic controlling apparatus | |
US3145957A (en) | Railway traffic controlling apparatus | |
US2162461A (en) | Coded train control system for railroads | |
US1864481A (en) | Railway traffic controlling apparatus | |
US1564144A (en) | Train-control system | |
US2887571A (en) | Apparatus for controlling highway crossing signals | |
US2231504A (en) | Railway signaling apparatus | |
US2088768A (en) | Automatic train control | |
US2213420A (en) | Railway traffic controlling apparatus | |
US2176605A (en) | Approach control apparatus for railway signaling systems | |
US2053884A (en) | Railway traffic controlling apparatus | |
US2025265A (en) | Railway traffic controlling apparatus | |
US2283998A (en) | Absolute permissive block system of railway signaling | |
US2045924A (en) | Continuous inductive train control system | |
US2107171A (en) | Signaling system for railroads |