US504454A - Telephone-transmitter - Google Patents

Telephone-transmitter Download PDF

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US504454A
US504454A US504454DA US504454A US 504454 A US504454 A US 504454A US 504454D A US504454D A US 504454DA US 504454 A US504454 A US 504454A
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block
recesses
electrodes
transmitter
carbon
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04RLOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
    • H04R21/00Variable-resistance transducers
    • H04R21/02Microphones
    • H04R21/021Microphones with granular resistance material

Definitions

  • Fig. 2 is a vertical longitudinal section; and Fig. 3 a vertical transverse section (both enlarged) of the carbon block, which forms one of the essential features of my invention.
  • A is the box or case within which the apparatus is inclosed.
  • B is a thin plate or diaphragm of metal or other resilient material, preferably circular in form, which may be secured to the inner front wall of the case A by means of screws b, or otherwise, passing through its edge.
  • a conical openingor mouth-piece formed in the front of the case A, immediately in front of the plate or diaphragm B and concentric therewith.
  • a shallow chamber 0 may with advantage be formed around and concentric with the mouth-piece and in front of the diaphragm B.
  • An electrode 1) is afifixed to the center of the diaphragm directly behind the center of the mouth-piece G.
  • This electrode is preferably of metal, although it might be of carbon, and is preferably cylindrical in form with a convex end.
  • a second electrode (1 of precisely similar construction, is carried upon the end of an upright flexible resilient spring D, which is firmly attached to the case A at or near the point d, but is insulated from the diaphragm B. This spring is bent in the form shown and is fitted with an adjusting screw D, the function of which will hereinafter be explained.
  • E is a block of carbon, shown in longitudinaland transverse section in Figs. 2 and 3 respectively. It is preferably cylindrical in form, although the form is not very material, and has similar recesses e e formed in its opposite sides, preferably cylindrical and of such dimensions as to permit the electrodes b and d to enter them loosely.
  • the recesses e e may conveniently be formed by boring and are preferably made concave at the bottom, as shown in Figs. 2 and 3.
  • a battery Q is attached to the binding screws P N.
  • a wire w connects with the electrode I), through the diaphragm D or otherwise;
  • awire w connects the electrode d with the primary wire of the induction-coil F, through the spring D or otherwise, and
  • a wire 20 connects the other terminal of the primary wire of the induction coil with the binding screw N.
  • the terminals of the secondary wire of the induction coil are carried to the binding screws L L and to these are connected the main line and earth wires in the ordinary and well-known manner.
  • the operation of the apparatus is as follows: When a person speaks into the mouthpiece 0, the diaphragm or plate B is thrown into vibration in a manner well understood, which vibrations are participated in by the electrode 1). As this electrode moves to-andfro, it necessarily produces a variation, not only in the direct pressure between the ends of two electrodes b and d and the intervening portion of the carbon block E, but also establishes a frictional or rubbing contact between the upper sides of the respective electrodes and the corresponding surfaces of the inner walls of the apertures ea in the carbon block E.
  • a block of carbon having recesses formed in its opposite sides, in combination with electrodes loosely entering each of said recesses and carrying said block.
  • a block of carbon having cylindrical recesses with concave bottoms formed in its opposite sides, in combination with cylindrical electrodes with convex ends entering said recesses and supporting said block. 7
  • a block of carbon having recesses formed in its opposite sides, in combination with electrodes loosely entering into opposite sides of, and carrying said block, and means for adjusting the normal distance between said electrodes.
  • a block of carbon having recesses formed in its opposite sides, in combination with a fixed and a movable electrode loosely entering said recesses iand carrying said block, a vibrating plate communicating motion to one of said electrodes, and a yielding support for the other electrode;
  • a block of I carbon having recesses formed in its opposite sides, in combination with a movable and a ;fixed elect-rode loosely entering said recesses and carrying said block, a vibrating plate communicating motion to one of said electrodes, and anadj nstable yielding support for the other electrode.

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  • Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Acoustics & Sound (AREA)
  • Signal Processing (AREA)
  • Piezo-Electric Transducers For Audible Bands (AREA)
  • Water Treatment By Electricity Or Magnetism (AREA)
  • Diaphragms For Electromechanical Transducers (AREA)

Description

(Nd Model.)
. N. PARKS.
TELEPHONE TRANSMITTER.-
' No. 504,454. Patented Sept. 5, 1893.
JV l L j gggmfioz @513 MA luon m mgw wwmwaw UNITED STATES PATENT OFFICE.
NATHANIEL PARKS, OF DEANSVILLE, NEW YORK.
TELEPHONE-TRANSMITTER.
SPECIFICATION forming part of Letters Patent No. 504,454, dated September 5, 1893.
Application filed December 6, 1892. Serial No. 454,224. (No model.) I
electric circuit of small resistance, and are thence transferred by means of an induction coil or other equivalent devicein a well known way to a main circuit, which latter may extend to a great distance. The fundamental principle of all transmitters of this class, consists in interposing in the said local circuit, an imperfectly conducting contact, the conductivity of which is controlled and made to vary in accordance with the mechanical vibrations of a plate or diaphragm which is responsive to the impact of sound waves or vibrations in the air.
My present improvement relates more especially to the construction and mode of operation of the electrodes, by which such variable through the box or case containing the transmitter, showing the relation of the several parts to each other. Fig. 2 is a vertical longitudinal section; and Fig. 3 a vertical transverse section (both enlarged) of the carbon block, which forms one of the essential features of my invention.
Referring to the drawings, A is the box or case within which the apparatus is inclosed.
B is a thin plate or diaphragm of metal or other resilient material, preferably circular in form, which may be secured to the inner front wall of the case A by means of screws b, or otherwise, passing through its edge.
0 is a conical openingor mouth-piece formed in the front of the case A, immediately in front of the plate or diaphragm B and concentric therewith. A shallow chamber 0 may with advantage be formed around and concentric with the mouth-piece and in front of the diaphragm B. An electrode 1) is afifixed to the center of the diaphragm directly behind the center of the mouth-piece G. This electrode is preferably of metal, although it might be of carbon, and is preferably cylindrical in form with a convex end. A second electrode (1 of precisely similar construction, is carried upon the end of an upright flexible resilient spring D, which is firmly attached to the case A at or near the point d, but is insulated from the diaphragm B. This spring is bent in the form shown and is fitted with an adjusting screw D, the function of which will hereinafter be explained.
E is a block of carbon, shown in longitudinaland transverse section in Figs. 2 and 3 respectively. It is preferably cylindrical in form, although the form is not very material, and has similar recesses e e formed in its opposite sides, preferably cylindrical and of such dimensions as to permit the electrodes b and d to enter them loosely. The recesses e e may conveniently be formed by boring and are preferably made concave at the bottom, as shown in Figs. 2 and 3. When the carbon block E is in position, as shown in Fig. 1, it is loosely carried by and rests upon the electrodes b and cl. The electrode d, which is supported uponthe flexible resilient spring D, is then adjusted by means of the screw D in such manner that the electrodes b and 01' will press lightly against the bottom of the respective recesses e e in the carbon block E.
A battery Q is attached to the binding screws P N. From the binding screw P a wire w connects with the electrode I), through the diaphragm D or otherwise; awire w connects the electrode d with the primary wire of the induction-coil F, through the spring D or otherwise, and a wire 20 connects the other terminal of the primary wire of the induction coil with the binding screw N. The terminals of the secondary wire of the induction coil, are carried to the binding screws L L and to these are connected the main line and earth wires in the ordinary and well-known manner.
The operation of the apparatus is as follows: When a person speaks into the mouthpiece 0, the diaphragm or plate B is thrown into vibration in a manner well understood, which vibrations are participated in by the electrode 1). As this electrode moves to-andfro, it necessarily produces a variation, not only in the direct pressure between the ends of two electrodes b and d and the intervening portion of the carbon block E, but also establishes a frictional or rubbing contact between the upper sides of the respective electrodes and the corresponding surfaces of the inner walls of the apertures ea in the carbon block E.
By means of the peculiar construction of my apparatus the electric current is caused to pass simultaneously through two points of imperfect contact, situated electrically in series with each other, the conductivity of these two points being simultaneously varied by each motion of the diaphragm B, and for this reason the variation in conductivity due to any given movement of the diaphragm, is nec essarily very much greater than when only a single contact is employed. It results therefore, from the peculiar construction of my apparatus, that the loudness of the sound heard in the receiver is greatly augmented without impairing its quality or distinctness.
I claim as my invention 1. In a telephonic transmitter, a block of carbon having recesses formed in its opposite sides, in combination with electrodes loosely entering each of said recesses and carrying said block.
2. In a telephonic transmitter, a block of carbon having cylindrical recesses formed in its opposite sides but in the same axial line, i
in combination with a movable and a fixed cylindrical electrode loosely entering said recesses and carrying said block.
3. In a telephonic transmitter, a block of carbon having cylindrical recesses with concave bottoms formed in its opposite sides, in combination with cylindrical electrodes with convex ends entering said recesses and supporting said block. 7
4. In a telephonic transmitter, a block of carbon having recesses formed in its opposite sides, in combination with electrodes loosely entering into opposite sides of, and carrying said block, and means for adjusting the normal distance between said electrodes.
5. In a telephonic transmitter, a block of carbon having recesses formed in its opposite sides, in combination with a fixed and a movable electrode loosely entering said recesses iand carrying said block, a vibrating plate communicating motion to one of said electrodes, and a yielding support for the other electrode;
6. In a telephonic transmitter, a block of I carbon having recesses formed in its opposite sides, in combination with a movable and a ;fixed elect-rode loosely entering said recesses and carrying said block, a vibrating plate communicating motion to one of said electrodes, and anadj nstable yielding support for the other electrode.
In testimony whereof I have hereunto subscribed my name this 28th day of November, A. D. 1892.
DoN CARLOSYALE, WILLIAM R. SMALL.
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