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Classifications

• • G—PHYSICS
  • G08—SIGNALLING
  • G08C—TRANSMISSION SYSTEMS FOR MEASURED VALUES, CONTROL OR SIMILAR SIGNALS
  • G08C19/00—Electric signal transmission systems
  • G08C19/38—Electric signal transmission systems using dynamo-electric devices
  • G08C19/46—Electric signal transmission systems using dynamo-electric devices of which both rotor and stator carry windings
  • G08C19/48—Electric signal transmission systems using dynamo-electric devices of which both rotor and stator carry windings being the type with a three-phase stator and a rotor fed by constant-frequency AC, e.g. selsyn, magslip

Definitions

• Fig. 1 represents a form of my invention where the telemetering receiver is arranged to produce induction motor torque energy in addition to the torque energy conveyed thereto from the transmitter
• Fig. 2 represents a form of the invention where induction motor torque energy is produced in the transmitter and partially conveyed to the receiver electrically.
• Fig. 1 I have represented a meter at I0 which we may assume, for example, to be a flow meter for measuring the number of gallons of liquid which flows through a conduit ll.
• At i2 is a register on which it is desired to count the number of gallons measured by the meter III.
• the register I! may be some distance away from meter il. Also,.it may be a large register which requires more torque energy to drive it than is possible to take from meter ill and have the meter remain accurate.
• the present invention permits of driving register l2 in accordance with the accurate measurement of meter I ll without requiring appreciable torque energy from such meter, even though register I! may be located a considerable distance from the meter and requires considerable torque for its operation.
• a shaft It extends from meter II which, it will be understood, rotates in a given direction in accordance with the flow of liquid through meter l0, and on this shaft is mounted a rotor having a winding M similar to a three-phase,
• the transmitter is provided with a stator having a single phase winding II.
• the stator of the receiver has a winding part ll which may be considered similar to I! and these winding parts are connected in parallel to a single phase source of supply IS.
• the receiver stator has a second winding part displaced at an angle to winding part l8 and connected in parallel therewith through a phase shifting device such as a con- 5 denser.
• the receiver stator is thus connected as a two-phase motor and has a polyphase as dis-- tinguished from a single phase primary.
• I furnish the greater amount of torque energy for driving the receiver by causing the receiver (in Fig. 1) to function as a polyphase motor taking torque energy through its polyphase stator winding independently of any torque energy that may be transmitted thereto through the lines it from the rotor ll of the transmitter.
• 8-2l of the receiver furnishes a rotating magnetic field as distinguished from a single phase iield and hence, if a suitable polyphase resistance !i be connected across the rotor secondary winding ll of the receiver, this device tends to run as an induction motor.
• the resistance II is adjusted such that the induction motor torque furnished by this polyphase motor action is not quite suflicient to rotate register l2, and the connection of the stator winding is such that this induction motor torque energy is ina direction to drive register I 2 in the forward direction, i. e., in the same direction as it would be driven by normal telemetering action.
• the register I! is driven forward by a corresponding amount.
• the torque energy furnished-by rotor l4 and transmitted electrically over lines It to the receiver causes a sort of electrical escapement action in the receiver. It causes re ister I!
• the polyphase induction motor action of the receiver is in one direction only.
• the stator winding part 28 may, of course, be reversed to reverse the direction of induction motor action and this may be necessary when installing the apparatus to assure that the two torques furnished to the receiver are in the same direction. This mayv also be accomplished by reversing two of the wires i5 between transmitter and receiver.
• the devices will preferably be designed so as best to take advantage of the invention.
• the secondary induction motor winding need not necessarily be common with the polyphase winding I5 or 24, but the common use of this winding for both telemetering and induction motor purposes is feasible.
• Fig. 2 I have shown a modified form of the invention.
• the meter ill and register I 2 may be similar to those of Fig. 1.
• the primary elements 22 and 23'of transmitter and receiver are placed on their rotors, while the secondary elements 24 and 25 which are connected in star instead of in delta are stationary. This in itself represents no departure from the prior art.
• the rotor winding 22 corresponds to the polyphase winding l8-20 of Fig. 1 and the resistance 2
• the transmitter thus has induction motor torque and this torque may be made even more than suflicient to drive the rotary parts of the transmitter combination but may be restrained from so doing except as the meter l0 permits it, by reason of a mechanical escapement operated by the meter l0.- This escapement may take the'form of a worm 26 on meter shaft 93 meshing with a worm gear 21 on the shaft of rotor 22.
• the transmitter 22 will,
• meter l0 may thus be relieved of all load but will nevertheless accurately-control the operation of the transmitter.
• the telemetering currents which now to the receiver secondary may be somewhat distorted by reason of the double function of the transmitter but this is not important since exact angular position similarity is not required between transmitter and receiver in applications where the invention will be used. By proper design and adjustment the invention will reproduce the forward rotational movement of the transmitter at the receiver.
• the invention' is also important where several receivers are connected to be operated from one transmitter as, by means of this invention, the torque energy taken from the meter of the transmitter may be reduced to a value only suificient for control purposes and is not required to supply the torque energy for actual operation of the sev- Letters Patent of the United States, is,
• a telemetering system having transmitters and receivers each provided with relatively rotatable primary and secondary windings, the secondary windings of each device being like a threephase winding, a three-wire telemetering circuit connecting the secondary windings in parallel, means for supplying single phase energy to the primary windings of said devices, one of which is a single phase winding and the other of which is a split phase winding and produces a rotating, as distinguished from single phase, magnetic field, a three-phase resistance connected across the .25 secondary winding of the device supplied with the rotating magnetic field to produce induction motor torque in such device, rotary means for determining the direction and extent of rotation of the transmitter and rotary means driven by the receiver in synchronism with the transmitter, the induction motor torque furnished by said one device being in the same direction as the telemetering torque of the system and of such a value as to supply a substantial part of the rotational torque energy 01' the system.
• a synchronous telemetering system having transmitter and receiver devices, saiddevices having relatively rotatable primary and secondary windings, the secondary windings being like 1 40 three-phase windings, a three-wire telemetering circuit connecting the secondary windings in par allel in three-phase relation,- means for supplying single phase energy to the primary windings whereby when thereis relative rotation between :45 the primaryand secondary windings of the transmitter a synchronous telemetering torque is developed in the receiver tending to produce similar relative rotation between its primary and'secondary windings, one of said devices being flit- .50 signed and connected to produce an additional induction motor torque in the same direction as the telemetering torque therein, said induction motor torque furnishing a substantial part of the rotational torque energy for the system while -'55 permitting synchronous telemetering control action between transmitter and receiver.
• a synchronous telemetering system comprising transmitting and receiving devices each having relatively rotatable primary and secondaryiflfl windings, the secondary windings resembling polyphase windings, a multiple wire telemetering system connecting the secondary windings in parallel in polyphase relation, the transmitter having a single phase primary winding and the re I66 DCver having a split phase primary winding, a common source of single phase supply for both primary windings, connections for permitting induction motor secondary current to flow in the polyphase connected secondary winding of the 70 receiver, a load device driven by said receiver, means for rotating said transmitter in a given direction, the induction motor torque of said receiver being in the same direction as the telemetering torque therein due to rotation of the 75 transmitter and of such a value as to furnish a large part but not all of the torque for driving its load device, whereby the transmitter is relieved of a substantial part of the torque energy necessary for successful synchronous telemetering action of the system.
• a synchronous telemetering system comprising transmitter and receiver devices each having relatively rotatable primary and secondary windings, the secondary windings resembling polyphase windings, a multiple wire telemetering circuit connecting the secondary windings in polyphase relation, a common single phase source of supply for energizing the primary windings, the primary winding of the transmitter being a split phase winding and the primary winding of the receiver being a single phase winding, connections for permitting induction motor secondary currents to flow in the secondary winding of the transmitter whereby said transmitter produces an induction motor torque, a rotary device connected to said transmitter through an escapement form of drive such that the transmitter can rotate only as it is allowed to do so by synchronous rotation of the connected rotary device, the induction motor torque of said transmitter being suflicient to rotate its relatively rotatable wind ings and in addition transmit rotational torque energy for operation of the receiver in synchronism therewith, and the direction of such induction motor torque corresponding to the direction of rotation of the connected rotary device for

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Description

Priority Applications (1)

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Publications (1)

Family

ID=22932653

Family Applications (1)

Country Status (1)

Cited By (1)

• 1938
  • 2025-08-06 US US246885A patent/US2164179A/en not_active Expired - Lifetime

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