US3095529A - Device for electromagnetically maintaining oscillating movement - Google Patents

Device for electromagnetically maintaining oscillating movement Download PDF

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US3095529A
US3095529A US33744A US3374460A US3095529A US 3095529 A US3095529 A US 3095529A US 33744 A US33744 A US 33744A US 3374460 A US3374460 A US 3374460A US 3095529 A US3095529 A US 3095529A
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coil
voltage
regulating member
resistance
transistor
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Dome Peter
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SSIH Management Services SA
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SSIH Management Services SA
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    • GPHYSICS
    • G04HOROLOGY
    • G04CELECTROMECHANICAL CLOCKS OR WATCHES
    • G04C3/00Electromechanical clocks or watches independent of other time-pieces and in which the movement is maintained by electric means
    • G04C3/04Electromechanical clocks or watches independent of other time-pieces and in which the movement is maintained by electric means wherein movement is regulated by a balance
    • G04C3/06Electromechanical clocks or watches independent of other time-pieces and in which the movement is maintained by electric means wherein movement is regulated by a balance using electromagnetic coupling between electric power source and balance
    • G04C3/065Electromechanical clocks or watches independent of other time-pieces and in which the movement is maintained by electric means wherein movement is regulated by a balance using electromagnetic coupling between electric power source and balance the balance controlling gear-train by means of static switches, e.g. transistor circuits
    • G04C3/069Driving circuits using a single coil for detection and driving purposes

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  • the present invention relate to a device for electrornagneticaly maintaining the oscillating movement of the regulating member of a timepiece, comprising a magnetic tlux generator and a coil, one of which two members moves integrally with the regulating member, while the other is fixed, so that the interaction of the magnetic flux and of the current flowing through the coil sets up an electromagnetic force which is intended to sustain the oscillating movement of the said regulating member.
  • Two types of electromagnetic sustaining devices are at present known, namely devices comprising electric contacts and transistor devices.
  • bistable element As is known, special bistable element have been developed in recent years, these elements having a negative resistance for certain values of the feed voltage (see for example Swiss Patent No. 335,368).
  • the device according to the invention is distinguished from the known devices by the fact that the said coil is connected in series in an electric circuit comprising a direct-voltage source and a bistable element having a negative resistance for certain values of the voltage of the said source, the said coil being so designed that the subtraction of the voltage induced therein as a result of the variations of the flux passing through the coil from the voltage of the said source produces the change-over "ice of the said element from its stable state determined by its maximum resistance to its stable state determined by its minimum resistance, while the addition of the voltage induced in the coil to that of the source produces the changeover of the element from its stable state determined by its minimum resistance to its stable state determined by its maximum resistance.
  • FIGURE 1 is a plan view with the electric circuit diagram.
  • FIGURE 2 is an electric circuit diagram of a modified form.
  • FIGURE 3 shows a number of electrical characteristics of the device.
  • FIGURE 4 shows a variant of a detail of the device.
  • the electromagnetic sustaining device comprises a regulating member which in the present instance consists of a circular balance 1 connected by a cross-member 2. to a staff 3, of which the two ends are intended to pivot in bearings (not shown) provided in the fixed paitof a timepiece.
  • a spiral spring 4 attached at one end to the staff 3 and at the other end to the said fixed part is intended to maintain the balance 1 in oscillatory movement.
  • a pancake coil 10 is disposed in a plane perpendicular to the staff 3 and therefore parallel to the balance 1, in such manner that the magnets 7 to 9 pass across the coil during the oscillating movement of the balance.
  • the coil 10 is fixed and is so disposed that its position in relation to the magnets 7 to 9 is that illustrated in FIGURE 1 when the balance 1 is in its position of rest or of equilbrium, in which position the action of the spring 4 is zero.
  • the coil 10 is connected at one end of the negative pole of a direct-voltage source 11 and at the other end to the collector C of a transistor T of p-n-p type, of which the emitter E is earthed.
  • the tram sistor T is a special transistor, which comprises in addition to a base contact [7 which is negatively biased by a directvoltage source 12, a second base contact b situated between the emitter E and a groove 13 surrounding the latter, and positively biased by means of a source 14 through a variable high resistance 15.
  • the said transistor T is capable of operating as a bistable element by virtue of its V -I characteristic (collector voltage-collector current) which comprises a negative part, namely a part with which the current 1,, is inversely proportional to the voltage V This means that the transistor T has a negative resistance for certain values of the voltage applied to the collector C.
  • V -I characteristic collector voltage-collector current
  • Such a transistor of which the V -l characteristic is represented in FIGURE 3 by ODF, is described in detail in Swiss Patent No. 335,368.
  • Owing to the groove 13 it is possible to vary by means of the space charge zone due to the potential difference between the collector C and the base B, the resistance of that part of the base which electrical-1y connects the contact h to the emitterbase junction and to the contact b and consequently the current flowing between the emitter E and the contact 12 due to the bias of the latter. This current will therefore become substantially zero when the space charge zone extends as far as the groove 13.
  • the voltage of the source 11, which is applied to the collector C through the charge resistance formed by the coil 10, must be at least higher than the voltage necessary in order that the space charge zone due to the potential dilference between the collector C and the base B may be extended as far as the groove 13, and that the current path between the contact h on the one hand and the contact b and the emitter E on the other hand may be interrupted.
  • the control current of the transistor will thus be interrupted and the transistor will be blocked.
  • the resistance of the coil must be made such that the V-I characteristic of the latter, represented by the line GH in FIGURE 3, has substantially the same slope as the negative part DF of the characteristic curve of the transistor.
  • the magnetic and electric circuits formed by the magnets 7 to 9 and by the coil 10 respectively must be so designed that, for a very small angle of oscillation of the balance, the voltage induced in the coil is higher than the voltage difference existing between the voltage of the source 11 and the voltage of the collector at which the said base charge zone reaches the groove 13.
  • the slope of the negative part DF of the characteristic curve of the transistor is obtained by choosing an appropriate voltage for the source 12.
  • the positive bias of the contact 12 permits of varying the value of the voltage which must be applied to the collector in order that the space charge zone may be extended as far as the groove 13.
  • the device described and illustrated operates in the following manner:
  • the balance 1 is in one of its two extreme positions, for example in the extreme righthand position, in relation to the reader of the dnawing. Since the flux of the magnets 7 to 9 does not pass through the coil 10, no voltage is induced therein. The voltage applied to the collector C is therefore equal to the voltage of the source 11 and the transistor T is blocked. The electrical operating point is therefore situated at G (FIG- URE 3). Under the action of the spring 4, the balance will carry out a return movement towards its position as shown in the drawing, i.e. towards the coil 10. When the magnetic flux passes through the latter, the variation of the said flux, produced by the passage of the magnets mounted on the balance, will cause an alternating voltage V to be induced in the coil (see FIGURE 3).
  • the voltage V is therefore superimposed on the voltage of the source 11.
  • the positive half-cycle of the voltage V is superimposed on the negative voltage of the source, it will produce a reduction of the voltage V applied to the collector and the movement of the operating point from G to F.
  • the transistor When the voltage V reaches a value below that corresponding to the point P, the transistor will changeover into its other stable state, that is, into the conductive state, and the operating point will be located on the part OD of the characteristic.
  • the oscillogram of the current I represented by the right-hand part of FIGURE 3, shows the variation of the current I as a function of a positive half-cycle of the voltage V, (at the bottom of FIGURE 3).
  • the current I will therefore flow through the coil 10, which will result in the creation of a Laplace force, resulting from the presence of a conductor having a current flowing therethrough in a magnetic field, which force will drive the balance in the direction of its movement.
  • a further positive half-cycle will cause the transistor to change over into the conductive state and will thus result in a further impulse of the current I in the coil, and so on.
  • the voltage V induced in the latter at a half-oscillation of the balance 1 is composed of two periods, one on each side of the position of rest of the balance, so that the coil 10 will receive two current impulses, one just before and the other after the said position of rest.
  • the balance will receive two mechanical impulses, one just before and the other after its passage through its position of rest, from a force which is tangential thereto, and will continue its movement as far :as the extreme left-hand position, from which it will return under the action of the spring 4.
  • the same cycle will be repeated during the opposite movement of the balance, that is to say, that the latter will receive two further impulses in the direction of its movement, and so on.
  • the balance will therefore receive at each half period of its oscillating movement two mechanical impulses in the direction thereof.
  • the coil 10 performs the function both of the coil driving the balance and of the coil controlling the transistor T.
  • An important advantage of the device according to the invention consists in the fact that, for obtaining the change-over of the transistor T, it is no longer necessary for signals exceeding 0.4 to 0.5 volt to be obtained, but one signal capable of shifting the operating point of the transistor from G to F or from F to D (see FIGURE 3) is sufficient for the change-over of the transistor.
  • the transistor may therefore consist of silicon.
  • the space charge zone is not sensitive to temperature variations, the sensitivity of the transistor is not influenced by the latter. This thermal stability also makes it possible for the distance GF (FIGURE 3) to be made very small in relation to the induced voltage V and consequently to reduce to a minimum the angle of oscillation of the balance for which the electromagnetic maintenance would not take place.
  • the current I namely the current passing through the driving coil, does not depend upon the amplification factor of the transistor T, that is, upon the value of the control signal. Owing to the internal negative feedback of the transistor, substantially the same form of driving current impulse is obtained both for very weak signals and for stronger signals.
  • the present invention is not limited to the constructional torm of the device as hereinbefore described and illustrated.
  • the transistor T could be replaced by any other bistable element having a negative resistance for certain feed voltage values.
  • the same transistor as that illustrated in FIGURE 1 could be employed, but without the contact b It is obvious that in this case the value of the voltage of the collector at which the emitter-base current is substantially zero would be chosen once for all.
  • the transistor T could be replaced by a transistor comprising, instead of the groove 13, other means for varying within wide limits, by means of the space charge zone due to the potential difference between the collector and the base, the electrical resistance of that part of the base by which the contact b is electrically connected to the emitter-base junction.
  • FIGURE 2 shows a circuit diagram of a modified form of the device according to the invention, wherein the transistor T is replaced by another bistable element.
  • the latter consists of a conventional transistor T of which the collector C is connected through the coil to the negative pole of the source 11, the positive pole of the latter being earthed, as also is the emitter E of the transistor T
  • the contact b of the transistor T is connected to a contact 20, which is provided at one of the ends of a fieldistor F the contact 21 provided at the other end of the fieldistor F being connected to the negative pole of the source 12.
  • the zone Z of the fieldistor "F is connected to the collector C It will readily be seen that the emitter-base current intended to control the transistor is itself controlled by a variable resistance formed of the fieldistor F this resistance being controlled by the voltage applied to the collector C with which it increases and vice versa. It is obvious that the voltage of the source 11 must be at least higher than the voltage necessary in order that the space charge zone of the zone Z may extend as far as the surface of the fieldistor so as to interrupt the current flowing therein.
  • the magnetic flux generator consisting of the magnets 7 to 9 in the example given could be of any other form.
  • the same is the case with regard to the arrangement of the magnetic members and of the coil. The latter could be movable and the magnetic members fixed.
  • the transistors T and T could be of the n-p-ntype, which would obviously involve a reversal of the polarities of the various voltage sources.
  • a timepiece comprising an oscillating regulating member and a device for electromagnetically maintaining the oscillating movement of said regulating member, said device comprising a magnetic flux generator and a coil, one of which two members moves integrally with said regulating member, while the other is stationary, so that the interaction of the magnetic flux and of the current flowing through said coil sets up an electromagnetic force maintaining the movement of said regulating member of the timepiece, an electric circuit in which said coil is connected in series, a direct-voltage source in said circuit, and bistable means in said circuit, having a negative resistance for certain values of the voltage of said source, said bistable means being so responsive to subtraction oi the voltage induced in said coil as a result of variations of the flux passing through the coil from the voltage of said source that change-over of said bistable means occurs from its stable state determined by its maximum resistance to its stable state determined by its minimum resistance, while addition of the voltage induced in the coil to that of the source produces change-over of said histable means firom its stable state determined by its minimum resistance to its stable state determined
  • a timepiece comprising an oscillating regulating member and a device for electromagnetically maintaining the oscillating movement of said regulating member, said device comprising a magnetic flux generator and a coil, one of which two members moves integrally with said regulating member, while the other is stationary,
  • a timepiece comprising an oscillating regulating member and a device for electromagnetically maintaining the oscillating movement of said regulating member, said device comprising a magnetic flux generator and a coil, one of which two members moves integrally with said regulating member, while the other is stationary, so that the interaction of the magnetic flux and of the current flowing through said coil sets up an electromanetic force maintaining movement of said regulating member of the timepiece, an electric circuit in which said coil is connected in series, a direct-voltage source in said circuit, and a transistor in said circuit and including a collector, an emitter, a base and a base contact, said base having a groove therein between said base contact and said emitter and surrounding said emitter and having a space charge zone varying with differences in potential of said collector and base to vary the electrical resistance between said base contact and the emitter, the depth of said groove being such that said space charge zone can extend as far as the groove without reaching the emitter, said transistor constituting a bistable element having a negative resistance for certain values of the voltage of the said source,
  • a timepiece comprising an oscillating regulating member and a device for electromagnetically maintaining the oscillating movement of said regulating member, said device comprising a magnetic flux generator and a coil, one of which two members moves integrally with said regulating member, while the other is stationary, so that the interaction of the magnetic flux and of the current flowing through said coil sets up an electromagnetic force maintaining movement of said regulating member of the timepiece, an electric circuit in which said coil is connected in series, a direct-voltage source in said circuit, and a transistor in said circuit having a collector and a base, a fleldistor through which said base of the transistor is biased, said fieldistor being controlled by the voltage applied to the collector of said transistor in such manner that resistance of the tieldistor increases with resistance of the transistor and vice versa, said transistor constituting a bistable element having a negative resistance for certain values of the voltage of the said source, said transistor and fieldistor being so designed that the subtraction of the voltage induced in said coil as a result of variations of the flux passing through the coil
  • a timepiece comprising an oscillating regulating member and a device for electromagnetically maintaining the oscillating movement of said regulating member, said device comprising a magnetic flux generator and a coil, one of which two members moves integrally with the said regulating member, while the other is stationary, so that the interaction of the magnetic flux and of the current flowing through said coil sets up an electromagnetic force maintaining movement of said regulating member of the timepiece, an electric circuit in which said coil is connected in series, a direct-voltage source in said circuit, and bistable means in said circuit having a negative resistance for certain values of the voltage of said source, the voltage of said source being at least higher than the voltage at which the resistance of said bistable means reaches its maximum value, said bistable means being so designed that subtraction of the voltage induced in said coil as a result of variations of the flux passing through the coil from the voltage of said source produces change-over of said bistable means from its stable state determined by its maximum. resistance to its stable state determined by its minimum resistance, while addition of the voltage induced in the coil to that of the source
  • a timepiece comprising an oscillating regulating member and a device fOr electromagnetically maintaining the oscillating movement of said regulating member, said device comprising three magnetic members supported by said regulating member, of which at least one is a permanent magnet, said three members being polarised along axes parallel to the axis of oscillation of the regulating member and disposed in such manner that the direction of the flux in the center member is opposite to that in the two outer members, and a stationary coil, of pancake form, disposed in a plane substantially perpendicular to said axis of oscillation, so that in the oscillating movement of the regulating member the three magnetic members pass close to the coil and, as a result of the variations of the fiux passing therethrough,
  • bistable means in said circuit, having a negative resistance for certain values of the voltage of said source, said bistable means being so designed that subtraction of the voltage induced in said coil as a result of the variations of the flux passing through the coil from the voltage of said source produces change-over of said bistable means from its stable state determined by its maximum resistance to its stable state determined by its minimum resistance, while addition of the voltage induced in the coil to that of the source produces change-over of said bistable means from its stable state determined by its minimum resistance to its stable state determined by its maximum resistance.
  • a timepiece comprising an oscillating regulating member and a device for electromagnetically maintaining the oscillating movement of said regulating member, said device comprising three magnetic members supported by said regulating member, of which at least one is a permanent magnet, said three members being polarised along axes parallel tothe axis of oscillation of the regulating member and disposed in such manner that the direction of the flux in the center member is opposite to that in the two outer members, and a stationary coil coniisting of two windings of pancake form, which are connected in series and disposed one opposite the other outside opposite ends of said magnetic members and each in a plane substantially perpendicular to said axis of oscillation, so that in the oscillating movement of the regulating member said three magnetic members pass between the two windings and, as a result of the variations of the flux passing therethrough induce in said coil an alternating voltage, an electric circuit in which said coil is connected in series, a direct-voltage source in said circuit, and bistable means in said circuit, having a negative resistance for certain values of

Description

June 25, 1963 Filed June 3, 1960 P. DGME DEVICE FOR ELECTROMAGNETICALLY MAINTAINING OSCILLATING MOVEMENT 2 Sheets-Sheet 1 INVENTOR PETER DaMf yd Km ATTOR/ F) June 25, 1963 3,095,529
2 Sheets-Sheet 2 P. DC5ME DEVICE FOR ELECTROMAGNETICALLY MAINTAINING OSCILLATING MOVEMENT Filed June 3, 1960 INVFNTOR PETER DD'Mf BY A 6%W ATTORNEY United States Patent 3,095,529 DEVICE FOR ELECTROMAGNETICALLY MAIN- TAINING OSCILLATHNG MOVEMENT Peter Diime, Geneva, Switzerland, .assignor to Societe Snisse pour IIndustrie Horlogere S.A., Geneva, Switzerland, a firm of Switzerland Filed June 3, 1960, Ser. No. 33,744 Claims priority, application Switzerland June 10, 1959 8 Claims. (Cl. 318-132).
The present invention relate to a device for electrornagneticaly maintaining the oscillating movement of the regulating member of a timepiece, comprising a magnetic tlux generator and a coil, one of which two members moves integrally with the regulating member, while the other is fixed, so that the interaction of the magnetic flux and of the current flowing through the coil sets up an electromagnetic force which is intended to sustain the oscillating movement of the said regulating member.
Two types of electromagnetic sustaining devices are at present known, namely devices comprising electric contacts and transistor devices.
Contact devices, despite certain advantages which they have, for example in regard to the impulse form of the current, all have the disadvantage which are inherent in the use of contacts. This is why transistor devices are preferred. However, the latter have fairly considerable disadvantages which are due essentially to the transistor itself.
Thus, as is known, it is necessary to provide .two coils, one for driving the regulating member and the other for controlling the transistor, the said coils being connected in the collector-emitter circuit and in the base-emitter circuit respectively. On the other hand, by reason of the magnitude :of the inverse current of a germanium transister, and thus the extent to which it effects the consumption of energy, it is preferable to use a silicon transistor, the inverse current of which is much weaker. Now, the latter requires that the control voltage applied to the base should exceed 0.4 to 0.5 volt, which voltage must be entirely supplied by the control coil, since a bias which would increase the consumption due to the quiescent current cannot be envisaged. In addition, having regard to the exponential characteristic of the emitter-base diode, the amplification factor of such a transistor is much lower with weak signals and varies with temperature.
Consequently, the weaker the control signal, and therefore the smaller the amplitude of the oscillations of the regulating member, the smaller is the current in the driving coil, so that the regulating member will not be driven below a certain angle of oscillation. This angle is generally much larger than the angle above which the balance wheel of a mechanical watch no longer oscillates. In order to obviate these disadvantages, use is made of a plurality of transistors, which obviously does not simplify the device in question.
It is proposed by the invention to eliminate the aforesaid disadvantages in devices of both types, utilising bistable elements having special characteristics.
As is known, special bistable element have been developed in recent years, these elements having a negative resistance for certain values of the feed voltage (see for example Swiss Patent No. 335,368).
The device according to the invention is distinguished from the known devices by the fact that the said coil is connected in series in an electric circuit comprising a direct-voltage source and a bistable element having a negative resistance for certain values of the voltage of the said source, the said coil being so designed that the subtraction of the voltage induced therein as a result of the variations of the flux passing through the coil from the voltage of the said source produces the change-over "ice of the said element from its stable state determined by its maximum resistance to its stable state determined by its minimum resistance, while the addition of the voltage induced in the coil to that of the source produces the changeover of the element from its stable state determined by its minimum resistance to its stable state determined by its maximum resistance.
One constructional form and one modified form of the device of the invention are diagrammatically illustrated by way of example in the accompanying drawings.
FIGURE 1 is a plan view with the electric circuit diagram.
FIGURE 2 is an electric circuit diagram of a modified form.
FIGURE 3 shows a number of electrical characteristics of the device.
FIGURE 4 shows a variant of a detail of the device.
The electromagnetic sustaining device comprises a regulating member which in the present instance consists of a circular balance 1 connected by a cross-member 2. to a staff 3, of which the two ends are intended to pivot in bearings (not shown) provided in the fixed paitof a timepiece. A spiral spring 4 attached at one end to the staff 3 and at the other end to the said fixed part is intended to maintain the balance 1 in oscillatory movement. Fixedly mounted on a flattened portion 1 of the periphery of the balance 1, for example by adhesive, are three permanent magnets 7, 8 and 9. These three magnets are polarised along-an axis parallel to the staff 3 of the balance, in such manner that the direction of the flux passing through the center magnet 8 is opposite to the direction of the fluxes passing through the two outer magnets 7 and 9.
A pancake coil 10 is disposed in a plane perpendicular to the staff 3 and therefore parallel to the balance 1, in such manner that the magnets 7 to 9 pass across the coil during the oscillating movement of the balance. The coil 10 is fixed and is so disposed that its position in relation to the magnets 7 to 9 is that illustrated in FIGURE 1 when the balance 1 is in its position of rest or of equilbrium, in which position the action of the spring 4 is zero.
The coil 10 is connected at one end of the negative pole of a direct-voltage source 11 and at the other end to the collector C of a transistor T of p-n-p type, of which the emitter E is earthed. As will be seen, the tram sistor T is a special transistor, which comprises in addition to a base contact [7 which is negatively biased by a directvoltage source 12, a second base contact b situated between the emitter E and a groove 13 surrounding the latter, and positively biased by means of a source 14 through a variable high resistance 15. The said transistor T is capable of operating as a bistable element by virtue of its V -I characteristic (collector voltage-collector current) which comprises a negative part, namely a part with which the current 1,, is inversely proportional to the voltage V This means that the transistor T has a negative resistance for certain values of the voltage applied to the collector C.
Such a transistor, of which the V -l characteristic is represented in FIGURE 3 by ODF, is described in detail in Swiss Patent No. 335,368. Owing to the groove 13, it is possible to vary by means of the space charge zone due to the potential difference between the collector C and the base B, the resistance of that part of the base which electrical-1y connects the contact h to the emitterbase junction and to the contact b and consequently the current flowing between the emitter E and the contact 12 due to the bias of the latter. This current will therefore become substantially zero when the space charge zone extends as far as the groove 13.
The operation of the transistor T will be clearly apparent from the description hereinaiter given of the operation of the whole device according to the invention. However, before this description is given, it is necessary to give a accesses number of particulars regarding the conditions which must be satisfied in the design of various component parts of the device.
The voltage of the source 11, which is applied to the collector C through the charge resistance formed by the coil 10, must be at least higher than the voltage necessary in order that the space charge zone due to the potential dilference between the collector C and the base B may be extended as far as the groove 13, and that the current path between the contact h on the one hand and the contact b and the emitter E on the other hand may be interrupted. The control current of the transistor will thus be interrupted and the transistor will be blocked.
It is to be noted that there is no consumption of electrical energy when the transistor T is in the blocked condition.
On the other hand, the resistance of the coil must be made such that the V-I characteristic of the latter, represented by the line GH in FIGURE 3, has substantially the same slope as the negative part DF of the characteristic curve of the transistor. Finally, the magnetic and electric circuits formed by the magnets 7 to 9 and by the coil 10 respectively must be so designed that, for a very small angle of oscillation of the balance, the voltage induced in the coil is higher than the voltage difference existing between the voltage of the source 11 and the voltage of the collector at which the said base charge zone reaches the groove 13.
It is further to be noted that the slope of the negative part DF of the characteristic curve of the transistor is obtained by choosing an appropriate voltage for the source 12. The positive bias of the contact 12 permits of varying the value of the voltage which must be applied to the collector in order that the space charge zone may be extended as far as the groove 13.
The device described and illustrated operates in the following manner:
It will be assumed that the balance 1 is in one of its two extreme positions, for example in the extreme righthand position, in relation to the reader of the dnawing. Since the flux of the magnets 7 to 9 does not pass through the coil 10, no voltage is induced therein. The voltage applied to the collector C is therefore equal to the voltage of the source 11 and the transistor T is blocked. The electrical operating point is therefore situated at G (FIG- URE 3). Under the action of the spring 4, the balance will carry out a return movement towards its position as shown in the drawing, i.e. towards the coil 10. When the magnetic flux passes through the latter, the variation of the said flux, produced by the passage of the magnets mounted on the balance, will cause an alternating voltage V to be induced in the coil (see FIGURE 3). The voltage V is therefore superimposed on the voltage of the source 11. Thus, since the positive half-cycle of the voltage V is superimposed on the negative voltage of the source, it will produce a reduction of the voltage V applied to the collector and the movement of the operating point from G to F. When the voltage V reaches a value below that corresponding to the point P, the transistor will changeover into its other stable state, that is, into the conductive state, and the operating point will be located on the part OD of the characteristic. The oscillogram of the current I represented by the right-hand part of FIGURE 3, shows the variation of the current I as a function of a positive half-cycle of the voltage V, (at the bottom of FIGURE 3). The current I will therefore flow through the coil 10, which will result in the creation of a Laplace force, resulting from the presence of a conductor having a current flowing therethrough in a magnetic field, which force will drive the balance in the direction of its movement.
The change of polarity of the induced voltage V and thus the change from the positive half-cycle to the negative half-cycle, will result in the superimposition of the induced negative voltage V, on the voltage of the source 11 and consequently in an increase of the negative voltage V applied to the collector. As soon as the voltage V exceeds the value corresponding to the point D, the transistor will change over at the point L and will again be blocked. At the end of the negative halt-cycle, the operating point will again be at G. I
A further positive half-cycle will cause the transistor to change over into the conductive state and will thus result in a further impulse of the current I in the coil, and so on.
Owing to the form of the magnetic circuits 7 to 9 and of the electric circuit 10 (described in detail in Swiss patent application No. 59,898), the voltage V induced in the latter at a half-oscillation of the balance 1 is composed of two periods, one on each side of the position of rest of the balance, so that the coil 10 will receive two current impulses, one just before and the other after the said position of rest. Thus, the balance will receive two mechanical impulses, one just before and the other after its passage through its position of rest, from a force which is tangential thereto, and will continue its movement as far :as the extreme left-hand position, from which it will return under the action of the spring 4. Now, it will readily be seen that the same cycle will be repeated during the opposite movement of the balance, that is to say, that the latter will receive two further impulses in the direction of its movement, and so on.
The balance will therefore receive at each half period of its oscillating movement two mechanical impulses in the direction thereof.
It will readily be seen from the foregoing that the device according to the invention afford-s great advantages over the known devices.
In the first place, it makes it possible to dispense with the control coil which is essential in the known devices, since, as has been explained in the foregoing, the coil 10 performs the function both of the coil driving the balance and of the coil controlling the transistor T.
It is to be noted that, instead of a single coil as in the example hereinbefiore described, two series-connected coils it and 1th, could be provided, which are arranged in such manner that during the oscillating movement of the balance 1 the magnets 7 to 9 can pass between them (see FIGURE 4). This arrangement makes it possible to increase the number of turns of the coil through which the maximum flux passes.
An important advantage of the device according to the invention consists in the fact that, for obtaining the change-over of the transistor T, it is no longer necessary for signals exceeding 0.4 to 0.5 volt to be obtained, but one signal capable of shifting the operating point of the transistor from G to F or from F to D (see FIGURE 3) is sufficient for the change-over of the transistor. The transistor may therefore consist of silicon. On the other hand, since the space charge zone is not sensitive to temperature variations, the sensitivity of the transistor is not influenced by the latter. This thermal stability also makes it possible for the distance GF (FIGURE 3) to be made very small in relation to the induced voltage V and consequently to reduce to a minimum the angle of oscillation of the balance for which the electromagnetic maintenance would not take place.
Finally, the current I namely the current passing through the driving coil, does not depend upon the amplification factor of the transistor T, that is, upon the value of the control signal. Owing to the internal negative feedback of the transistor, substantially the same form of driving current impulse is obtained both for very weak signals and for stronger signals.
It will be obvious that the present invention is not limited to the constructional torm of the device as hereinbefore described and illustrated. Thus, in a modification, the transistor T could be replaced by any other bistable element having a negative resistance for certain feed voltage values. For example, the same transistor as that illustrated in FIGURE 1 could be employed, but without the contact b It is obvious that in this case the value of the voltage of the collector at which the emitter-base current is substantially zero would be chosen once for all.
The transistor T could be replaced by a transistor comprising, instead of the groove 13, other means for varying within wide limits, by means of the space charge zone due to the potential difference between the collector and the base, the electrical resistance of that part of the base by which the contact b is electrically connected to the emitter-base junction.
FIGURE 2 shows a circuit diagram of a modified form of the device according to the invention, wherein the transistor T is replaced by another bistable element. As will be seen, the latter consists of a conventional transistor T of which the collector C is connected through the coil to the negative pole of the source 11, the positive pole of the latter being earthed, as also is the emitter E of the transistor T The contact b of the transistor T is connected to a contact 20, which is provided at one of the ends of a fieldistor F the contact 21 provided at the other end of the fieldistor F being connected to the negative pole of the source 12. The zone Z of the fieldistor "F is connected to the collector C It will readily be seen that the emitter-base current intended to control the transistor is itself controlled by a variable resistance formed of the fieldistor F this resistance being controlled by the voltage applied to the collector C with which it increases and vice versa. It is obvious that the voltage of the source 11 must be at least higher than the voltage necessary in order that the space charge zone of the zone Z may extend as far as the surface of the fieldistor so as to interrupt the current flowing therein.
It is obvious that the magnetic flux generator consisting of the magnets 7 to 9 in the example given could be of any other form. The same is the case with regard to the arrangement of the magnetic members and of the coil. The latter could be movable and the magnetic members fixed.
Finally, the transistors T and T could be of the n-p-ntype, which would obviously involve a reversal of the polarities of the various voltage sources.
What I claim is:
1. In a timepiece comprising an oscillating regulating member and a device for electromagnetically maintaining the oscillating movement of said regulating member, said device comprising a magnetic flux generator and a coil, one of which two members moves integrally with said regulating member, while the other is stationary, so that the interaction of the magnetic flux and of the current flowing through said coil sets up an electromagnetic force maintaining the movement of said regulating member of the timepiece, an electric circuit in which said coil is connected in series, a direct-voltage source in said circuit, and bistable means in said circuit, having a negative resistance for certain values of the voltage of said source, said bistable means being so responsive to subtraction oi the voltage induced in said coil as a result of variations of the flux passing through the coil from the voltage of said source that change-over of said bistable means occurs from its stable state determined by its maximum resistance to its stable state determined by its minimum resistance, while addition of the voltage induced in the coil to that of the source produces change-over of said histable means firom its stable state determined by its minimum resistance to its stable state determined by its maximum resistance.
2. 'In a timepiece comprising an oscillating regulating member and a device for electromagnetically maintaining the oscillating movement of said regulating member, said device comprising a magnetic flux generator and a coil, one of which two members moves integrally with said regulating member, while the other is stationary,
so that the interaction of the magnetic flux and of the current flowing through said coil sets up an electromagnetic force maintaining movement of said regulating member of the timepiece, an electric circuit in which said coil is connected in series, a direct-voltage source in said circuit, and a transistor in said circuit and including a collector, an emitter, a base and a base contact, said base having a space charge zone varying with differences in potential of said collector and base to vary the electrical resistance between the base contact and the emitter, said transistor constituting a bisable element having a negative resistance for certain values of the voltage of said source, and said transistor being so designed that subtraction of the voltage induced in said coil as a result of variations of the flux passing through the coil from the voltage of said source produces changeover of said element from its stable state determined by its maximum resistance to its stable state determined by its minimum resistance, while addition of the voltage induced in the coil to that of the source produces changeover of the element from its stable state determined by its minimum resistance to its stable state determined by its maximum resistance.
3. In a timepiece comprising an oscillating regulating member and a device for electromagnetically maintaining the oscillating movement of said regulating member, said device comprising a magnetic flux generator and a coil, one of which two members moves integrally with said regulating member, while the other is stationary, so that the interaction of the magnetic flux and of the current flowing through said coil sets up an electromanetic force maintaining movement of said regulating member of the timepiece, an electric circuit in which said coil is connected in series, a direct-voltage source in said circuit, and a transistor in said circuit and including a collector, an emitter, a base and a base contact, said base having a groove therein between said base contact and said emitter and surrounding said emitter and having a space charge zone varying with differences in potential of said collector and base to vary the electrical resistance between said base contact and the emitter, the depth of said groove being such that said space charge zone can extend as far as the groove without reaching the emitter, said transistor constituting a bistable element having a negative resistance for certain values of the voltage of the said source, and said transistor being so designed that subtraction of the voltage induced in said coil as a result of variations of the flux passing through the coil from the voltage of the said source produces change-over of said element from its stable state determined by its maximum resistance to its stable state determined by its minimum resistance, while addition of the voltage induced in the coil to that of the source produces the change-over of the element from its stable state determined by its minimum resistance to its stable state determined by its maximum resistance.
4. Timepiece as claimed in claim 3, in which the base of said transistor comprises a second contact situated between said groove and said emitter and biased by means of a voltage of opposite sign to the voltage by which the said first contact is biased, the biasing of second contact being efiected through a variable resistance, so that the value of the potential diiference between the collector and the base at which said space charge zone must reach the said groove may be varied.
5. In a timepiece comprising an oscillating regulating member and a device for electromagnetically maintaining the oscillating movement of said regulating member, said device comprising a magnetic flux generator and a coil, one of which two members moves integrally with said regulating member, while the other is stationary, so that the interaction of the magnetic flux and of the current flowing through said coil sets up an electromagnetic force maintaining movement of said regulating member of the timepiece, an electric circuit in which said coil is connected in series, a direct-voltage source in said circuit, and a transistor in said circuit having a collector and a base, a fleldistor through which said base of the transistor is biased, said fieldistor being controlled by the voltage applied to the collector of said transistor in such manner that resistance of the tieldistor increases with resistance of the transistor and vice versa, said transistor constituting a bistable element having a negative resistance for certain values of the voltage of the said source, said transistor and fieldistor being so designed that the subtraction of the voltage induced in said coil as a result of variations of the flux passing through the coil from the voltage of the said source produces changeover of the said element from its stable state determined by its maximum resistance to its stable state determined by its minimum resistance, while the addition of the voltage induced in the coil to that of the sounee produces changeover of said element from its stable state determined by its minimum resistance to its stable state determined by its maximum resistance.
6. In a timepiece comprising an oscillating regulating member and a device for electromagnetically maintaining the oscillating movement of said regulating member, said device comprising a magnetic flux generator and a coil, one of which two members moves integrally with the said regulating member, while the other is stationary, so that the interaction of the magnetic flux and of the current flowing through said coil sets up an electromagnetic force maintaining movement of said regulating member of the timepiece, an electric circuit in which said coil is connected in series, a direct-voltage source in said circuit, and bistable means in said circuit having a negative resistance for certain values of the voltage of said source, the voltage of said source being at least higher than the voltage at which the resistance of said bistable means reaches its maximum value, said bistable means being so designed that subtraction of the voltage induced in said coil as a result of variations of the flux passing through the coil from the voltage of said source produces change-over of said bistable means from its stable state determined by its maximum. resistance to its stable state determined by its minimum resistance, while addition of the voltage induced in the coil to that of the source produces change-over of said bistable means from its stable state determined by its minimum resistance to its stable state determined by its maximum resistance.
7. In a timepiece comprising an oscillating regulating member and a device fOr electromagnetically maintaining the oscillating movement of said regulating member, said device comprising three magnetic members supported by said regulating member, of which at least one is a permanent magnet, said three members being polarised along axes parallel to the axis of oscillation of the regulating member and disposed in such manner that the direction of the flux in the center member is opposite to that in the two outer members, and a stationary coil, of pancake form, disposed in a plane substantially perpendicular to said axis of oscillation, so that in the oscillating movement of the regulating member the three magnetic members pass close to the coil and, as a result of the variations of the fiux passing therethrough,
induce an alternating voltage in said coil, an electric circuit in which said coil is connected in series, a direct-voltage source in said circuit, and a bistable means in said circuit, having a negative resistance for certain values of the voltage of said source, said bistable means being so designed that subtraction of the voltage induced in said coil as a result of the variations of the flux passing through the coil from the voltage of said source produces change-over of said bistable means from its stable state determined by its maximum resistance to its stable state determined by its minimum resistance, while addition of the voltage induced in the coil to that of the source produces change-over of said bistable means from its stable state determined by its minimum resistance to its stable state determined by its maximum resistance.
8. In a timepiece comprising an oscillating regulating member and a device for electromagnetically maintaining the oscillating movement of said regulating member, said device comprising three magnetic members supported by said regulating member, of which at least one is a permanent magnet, said three members being polarised along axes parallel tothe axis of oscillation of the regulating member and disposed in such manner that the direction of the flux in the center member is opposite to that in the two outer members, and a stationary coil coniisting of two windings of pancake form, which are connected in series and disposed one opposite the other outside opposite ends of said magnetic members and each in a plane substantially perpendicular to said axis of oscillation, so that in the oscillating movement of the regulating member said three magnetic members pass between the two windings and, as a result of the variations of the flux passing therethrough induce in said coil an alternating voltage, an electric circuit in which said coil is connected in series, a direct-voltage source in said circuit, and bistable means in said circuit, having a negative resistance for certain values of the voltage of said source, said bistable means being so designed that the subtraction of the voltage induced in said coil as a result of variations of the fiux passing through the coil from the voltage of said source produces change-over of said bistable means from its stable state determined by its maximum resistance to its stable state determined by its minimum resistance, while the addition of the voltage induced in the coil to that of the source produces change-over of said bistable means from its stable state determined by its minimum resistance to its stable state determined by its maximum resistance.
References Cited in the file of this patent UNITED STATES PATENTS 2,713,132 Matthews July 12, 1955 2,806,983 Hall Sept. 17, 1957 2,831,114 Van Ovenbeek Apr. 15, 1958 2,843,742 Cluwen July 15, 1958 2,907,000 Lawrence Sept. 29, 1959 2,907,940 Beyner Oct. 6, 1959 2,909,732 Van Overbeek Oct. 20, 1959 2,934,657 Rack Apr. 26, 1960 2,962,643 Kwartiroif Nov. 29, 1960 3,010,075 Epperlein Nov. 21, 1961

Claims (1)

1. IN A TIMEPIECE COMPRISING AN OSCILLATING REGULATING MEMBER AND A DEVICE FOR ELECTROMAGNETICALLY MAINTAINING THE OSCILLATING MOVEMENT OF SAID REGULATING MEMBER, SAID DEVICE COMPRISING A MAGNETIC FLUX GENERATOR AND A COIL, ONE OF WHICH TWO MEMBERS MOVES INTEGRALLY WITH SAID REGULATING MEMBER, WHILE THE OTHER IS STATIONARY, SO THAT THE INTERACTION OF THE MAGNETIC FLUX AND OF THE CURRENT FLOWING THROUGH SAID COIL SETS UP AN ELECTROMAGNETIC FORCE MAINTAINING THE MOVEMENT OF SAID REGULATING MEMBER OF THE TIMEPIECE, AN ELECTRIC CIRCUIT IN WHICH SAID COIL IS CONNECTED IN SERIES, A DIRECT-VOLTAGE SOURCE IN SAID CIRCUIT, AND BISTABLE MEANS IN SAID CIRCUIT, HAVING A NEGATIVE RESISTANCE FOR CERTAIN VALUES OF THE VOLTAGE OF SAID SOURCE, SAID BISTABLE MEANS BEING SO RESPONSIVE TO SUBTRACTION OF THE VOLTAGE INDUCED IN SAID COIL AS A RESULT OF VARIATIONS OF THE FLUX PASSING THROUGH THE COIL FROM THE VOLTAGE OF SAID SOURCE THAT CHANGE-OVER OF SAID BISTABLE MEANS OCCURS FROM ITS STABLE STATE DETERMINED BY ITS MAXIMUM RESISTANCE TO ITS STABLE STATE DETERMINED BY ITS MINIMUM RESISTANCE, WHILE ADDITION OF THE VOLTAGE INDUCED IN THE COIL TO THAT OF THE SOURCE PRODUCES CHANGE-OVER OF SAID BISTABLE MEANS FROM ITS STABLE STATE DETERMINED BY ITS MINIMUM RESISTANCE TO ITS STABLE STATE DETERMINED BY ITS MAXIMUM RESISTANCE.
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