US320987A - Franqois van eysselbeeghe - Google Patents
Franqois van eysselbeeghe Download PDFInfo
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- US320987A US320987A US320987DA US320987A US 320987 A US320987 A US 320987A US 320987D A US320987D A US 320987DA US 320987 A US320987 A US 320987A
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- telephonic
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- 230000005540 biological transmission Effects 0.000 description 12
- 230000001939 inductive effect Effects 0.000 description 10
- 230000000694 effects Effects 0.000 description 8
- 238000009877 rendering Methods 0.000 description 8
- 240000001203 Potentilla anserina Species 0.000 description 4
- 235000016594 Potentilla anserina Nutrition 0.000 description 4
- 239000004020 conductor Substances 0.000 description 4
- 241000283220 Odobenus rosmarus Species 0.000 description 2
- 238000005452 bending Methods 0.000 description 2
- 230000001629 suppression Effects 0.000 description 2
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M11/00—Telephonic communication systems specially adapted for combination with other electrical systems
- H04M11/06—Simultaneous speech and data transmission, e.g. telegraphic transmission over the same conductors
Definitions
- FIG. 1 a condenser, 1, one terminal of which is connected with the linewire 2 and the other terminal is put to earth. IVhen a current is sent to the line by operating the Morse instrument 4, the condenser becomes charged by the battery 3, and a portion of the current which would otherwise pass into the line is detained. The current in the line only reaches a maximum when the charging of the condenser is complete, and when the current of the battery is cut off the condenser delivers its charge into the line and lessens the abruptness of the extinction of the main-line current. A like result may be attained by including an electro-magnet, 5, in the circuit at the departure-point; or, if desired, the magnet of the receiving-instrument may take the place of a separate magnet. It is to be assumed that Figs. 1 and 2 show an arrangement of parts capable of transmitting telegraphic messages over wires included in a net-work of wires containing some that are used solely for telephonic purposes.
- Fig. 3 I show an arrangement of parts" where the ordinary telegraph-offi'ce is kept entirely independent of and distinct from the telephonic office, a single-line wire beingv in this instance used for the transmission of the currents of ordinary telegraphy and the undulatory currents of telephony without interference with each other.
- Fig. 3 I have shown a condenser, 8,0ne of the faces of which is connected to the main line 9, while the other face is connected to the terminal branch line 10, which leads to the telephonic otfice, (where the apparatus may be arranged in the ordinary manner.)
- a good arrangement of the telegraphic apparatus is shown in Fig. 3,
- the resistance of the electro-magnet of the receiver is always interposed between the line and the earth, the resistance of said magnet, however, being increased, so as to be never less than five hundred ohms.
- the electro-magnet which graduates the telegraphic currents entering the line-wire, and which also provides the resistance necessary to the due propagation of the telephonic waves through the condenser 8.
- an electromagnet, 12, shown in Fig. 4, is to be inter posed between thebattery and manipulator or between the battery and the earth.
- manipulators furnished with adjustable rheostats, (shownin my application No. 59,905, filed April 29, 1882,) arranged in such amanner that by pressing down the lever of the manipulator resistances varying progressively from infinity to zero are introduced into the circuit between the battery and the line.
- adjustable rheostats are formed of bodies of moderate conductivity, on which rubs a brush fixed to the lever of the manipulator. The line therefore becomes charged gradually and comparatively slowly, since the intensity of the current varies with the resistance introduced during the pressing down of the key of the"1nanipulator, and the inductive effects are no longer sufficiently powerful to trouble the telephonic transmission.
- Fig. 5 I have shown a telegrapho-telephonic system making use of the same linewire, and in which an electro-magnet, 14, of about five hundred ohms, is placed between the battery and the manipulator, a second similar magnet, 15,being located between the manipulator and the line, while a condenser, 16, of about two microfarads, has one side connected with the axis of the manipulator and the other side with the earth.
- a condenser, 18, of about one-half microfarad, is also arranged in a branch line, 20, between the line-wire and telephone 21.
- ⁇ Vhat I claim is 1.
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Description
(No Model.)
P. VAN RYSS ELBERGHE.
METHOD OF PREVENTING INTERFERENCE IN COMBINED TELEGRAPHIO AND TELEPHONIC SYSTEMS.
Patented June 30 N NW o u/m N. PETERS. Pnummm n hur. Washington a, c.
NITED STATES PATENT ()rriclr FRANQOIS VAN RYSSELBERGHE, OF SOHAERBEEK, BELGIUM.
BPECIFIOATION forming part of Letters Patent No. 320,987, dated June 30,1885.
Application filed May 27,1885. (Nomodeh) Patented in Belgium February 20,1882, No. 57,121, May 15, 1882, No. 57,836, and May 17, 1882, No. 57,947; in France February 26, 1882, No.147,5l5, and May 19, 1882, No. 149,042; in England March 17, 1882, No. 1,303, and May 24,1882, No. 2,466 in Italy March 29, 1882, No. 1,029, and July 13, 1882; in Germany June 9, 1882. No. 22,633, and June 17, 1882 No, 21,451; in Canada August 17, 1882, No. 15.333, and August, 30, 1882, No, 15,363; in Luxemburg December 8, 1883; in Portugal January 18,1884; in India January 29, 1884; in Sweden February 12, 1884; in Spain April 23, 1884; in Deumark June 18, 1884; in Brazil July 5, 1884; in Argentine Republic July 19, 1884, and in Uruguay December 12,1884.
To all whom, it may concern:
Be it known that I, FRANcoIs VAN RYssEL- BERGIIE, a subject of the King of Belgium, residing at Schaerbeek, Belgium, have invented new and useful Improvements in Method of Telegrapho -Telephonic Transmission of Messages, (for which I have obtained Letters Patent in Belgium February 20, 1882, No. 57,121, May 15, 1882, No. 57,836, and May 17, 1882, N 0. 57,947; France, February 26, 1882, No.147,515, and May 19, 1882, No. 149,042; Germany, June 9, 1882, No. 22,633, and June 17, 1882, No. 21,451; Great Britain, March 17, 1882, No. 1,303, and May 24, 1882, No. 2,466; Italy, March 29, 1882, No. 1,029, and July 13, 1882; Canada, August 17, 1882, No. 15,333, and August 30, 1882, No. 15,363; Portugal, January 18, 1884; India, January 29, 1884; Spain, April 23, 1884; Sweden, February 12, 1884; Denmark, June 18, 1884; Lu'xeinburg, December 8,1883; Brazil, July 5, 1884; Argentine Republic, July 19, 1884, and Uruguay, December 12, 1884,) of which the following is a specification.
It is known that one of the principal difficulties met with up to the present in telephonic transmissions to a great distance results from the powerful inductive'efiects produced in telephonic conductors by adjacent telegraph-W1 res, and which have appropriately been compared to the sound of frying. These inductive effects are caused each time the transmitting-key of an ordinary telegraph system effects an emission of current along the line, and charges the same almost instantaneously, thus having for its effect the transmission of a powerful induction-current of short duration through all neighboring or adjacent wires, the same phenomenon occurring, but in an opposite direction, when the circuit is broken. Many plans have been proposed for overcoming these effects and permit telegraphic and telephonic conductors to be includedin the samenet-work of wires; but until now all effects have been confined to the telephonic circuit or the seat of disturbances. My invention, on the contrary, differs from all plans heretofore proposed, since it concerns the telegraphic circuit or the cause of the dis turbances, and it involves, broadly, the suppression of the inductive effects of telegraphic currents on telephonic circuits, and rendering all telegraphic currents inaudible in telephones; also, in the simultaneous transmission of a telegraphic dispatch in Morse, Hughes, or other signals, and a telephonic message by one and the same wire, or by two wires employed for each-telephonic communication. I accomplish such results by resorting to a gradual telegraphic current, which only attains its i11- tensity by degrees; or, in other words, I make use of a current the emission and extinction of which is made gradual by suitable means provided for such purpose. gradual current the induced currents developed in the telephonic circuits will continue for a longer time than with the ordinary currents heretofore employed for telegraphic purposes; but the action upon the diaphragm of the telephonic instrument will be only a bending one without vibration, so that no sound will be produced. In order to deaden the electric wave of induction, and suppress the hissing which this wave would otherwise pro duce in the telephone, various methods may be employed.
Some of the mechanical devices or instruments and the arrangement thereof employed in carrying out my method have heretofore been fully described in my application for pat ent, filed April 29, 1882, No. 59,905, and in my United States Patent No. 306,665, dated 0c By using such a tober 14, 1884, and I may state that what is rents required to transmit and reproduce articulate-sounds.
For the sake of illustrating how my method may be carried out, Ihave shown in the accompanying drawings several means for rendering gradual the emission and extinction of the telegraphic current, and have also shown the relative arrangement of the telegraph and telephone stations.
In Figure 1 is shown a condenser, 1, one terminal of which is connected with the linewire 2 and the other terminal is put to earth. IVhen a current is sent to the line by operating the Morse instrument 4, the condenser becomes charged by the battery 3, and a portion of the current which would otherwise pass into the line is detained. The current in the line only reaches a maximum when the charging of the condenser is complete, and when the current of the battery is cut off the condenser delivers its charge into the line and lessens the abruptness of the extinction of the main-line current. A like result may be attained by including an electro-magnet, 5, in the circuit at the departure-point; or, if desired, the magnet of the receiving-instrument may take the place of a separate magnet. It is to be assumed that Figs. 1 and 2 show an arrangement of parts capable of transmitting telegraphic messages over wires included in a net-work of wires containing some that are used solely for telephonic purposes.
In Fig. 3 I show an arrangement of parts" where the ordinary telegraph-offi'ce is kept entirely independent of and distinct from the telephonic office, a single-line wire beingv in this instance used for the transmission of the currents of ordinary telegraphy and the undulatory currents of telephony without interference with each other. In Fig. 3 I have shown a condenser, 8,0ne of the faces of which is connected to the main line 9, while the other face is connected to the terminal branch line 10, which leads to the telephonic otfice, (where the apparatus may be arranged in the ordinary manner.) A good arrangement of the telegraphic apparatus is shown in Fig. 3,
in which 12 is the receiver, and the resistance of the electro-magnet of the receiver is always interposed between the line and the earth, the resistance of said magnet, however, being increased, so as to be never less than five hundred ohms. In this case it is the electro-magnet which graduates the telegraphic currents entering the line-wire, and which also provides the resistance necessary to the due propagation of the telephonic waves through the condenser 8.
If it is desired to retain the usual connections of the telegraphic apparatus, an electromagnet, 12, shown in Fig. 4,) of not less than five hundred ohms resistance, is to be inter posed between thebattery and manipulator or between the battery and the earth.
Instead of employing devices as above set forth, I may resort to manipulators furnished with adjustable rheostats, (shownin my application No. 59,905, filed April 29, 1882,) arranged in such amanner that by pressing down the lever of the manipulator resistances varying progressively from infinity to zero are introduced into the circuit between the battery and the line. These rheostats are formed of bodies of moderate conductivity, on which rubs a brush fixed to the lever of the manipulator. The line therefore becomes charged gradually and comparatively slowly, since the intensity of the current varies with the resistance introduced during the pressing down of the key of the"1nanipulator, and the inductive effects are no longer sufficiently powerful to trouble the telephonic transmission.
In Fig. 5 I have shown a telegrapho-telephonic system making use of the same linewire, and in which an electro-magnet, 14, of about five hundred ohms, is placed between the battery and the manipulator, a second similar magnet, 15,being located between the manipulator and the line, while a condenser, 16, of about two microfarads, has one side connected with the axis of the manipulator and the other side with the earth. This forms the subject matter of an application about to be filed.
A condenser, 18, of about one-half microfarad, is also arranged in a branch line, 20, between the line-wire and telephone 21.
\Vhat I claim is 1. The method of renderingtelegraphic or other electric currents, whether direct, (primary,) induced, or derived, inaudible in telephones, consisting in rendering gradual the emission and extinction of the telegraphic or other electric current, substantially as de'- scribed.
2. The method of transmitting telegraphic and telephonic messages over the same line. wire or wires, consisting in'rendering gradual, the emission and extinction of the telegraphic current, substantially as herein set forth.
In testimony whereof I affix my signature in presence of two witnesses.
RICHARD T. GIVEN, EDWD. H. CLOUD.
Publications (1)
Publication Number | Publication Date |
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US320987A true US320987A (en) | 1885-06-30 |
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US320987D Expired - Lifetime US320987A (en) | Franqois van eysselbeeghe |
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