EP1241538A1 - Mechanische uhr mit energieerzeugungssteuermechanismus der regulierten unruh - Google Patents
Mechanische uhr mit energieerzeugungssteuermechanismus der regulierten unruh Download PDFInfo
- Publication number
- EP1241538A1 EP1241538A1 EP00902142A EP00902142A EP1241538A1 EP 1241538 A1 EP1241538 A1 EP 1241538A1 EP 00902142 A EP00902142 A EP 00902142A EP 00902142 A EP00902142 A EP 00902142A EP 1241538 A1 EP1241538 A1 EP 1241538A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- balance
- hairspring
- mechanical timepiece
- rate
- wheel
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
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- G—PHYSICS
- G04—HOROLOGY
- G04C—ELECTROMECHANICAL CLOCKS OR WATCHES
- G04C3/00—Electromechanical clocks or watches independent of other time-pieces and in which the movement is maintained by electric means
- G04C3/04—Electromechanical 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
- G04C3/047—Electromechanical 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 other coupling means, e.g. electrostrictive, magnetostrictive
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- G—PHYSICS
- G04—HOROLOGY
- G04C—ELECTROMECHANICAL CLOCKS OR WATCHES
- G04C10/00—Arrangements of electric power supplies in time pieces
-
- G—PHYSICS
- G04—HOROLOGY
- G04C—ELECTROMECHANICAL CLOCKS OR WATCHES
- G04C11/00—Synchronisation of independently-driven clocks
-
- G—PHYSICS
- G04—HOROLOGY
- G04C—ELECTROMECHANICAL CLOCKS OR WATCHES
- G04C3/00—Electromechanical clocks or watches independent of other time-pieces and in which the movement is maintained by electric means
- G04C3/04—Electromechanical 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
-
- G—PHYSICS
- G04—HOROLOGY
- G04C—ELECTROMECHANICAL CLOCKS OR WATCHES
- G04C3/00—Electromechanical clocks or watches independent of other time-pieces and in which the movement is maintained by electric means
- G04C3/08—Electromechanical clocks or watches independent of other time-pieces and in which the movement is maintained by electric means wherein movement is regulated by a mechanical oscillator other than a pendulum or balance, e.g. by a tuning fork, e.g. electrostatically
Definitions
- the present invention relates to a mechanical timepiece capable of displaying time with high accuracy.
- the invention particularly relates to a mechanical timepiece having a balance power generation control mechanism capable of controlling a period of rotational oscillation of a balance with hairspring by energy generated by using the rotational oscillation of the balance with hairspring in order to adjust the rate of the timepiece.
- a movement (machine body) 1100 of a mechanical timepiece is provided with a main plate 1102 constituting a base plate of the movement.
- a winding stem 1110 is rotatably integrated to a winding stem guide hole 1102a of the main plate 1102.
- a dial 1104 (shown in Fig. 11 by an imaginary line) is attached to the movement 1100.
- a side thereof having the dial is referred to as “back side” of the movement and a side thereof opposed to the side having the dial is referred to as “front side” of the movement.
- a train wheel integrated to the "front side” of the movement is referred to as “front train wheel” and a train wheel integrated to the "back side” of the movement is referred to as “back train wheel”.
- a position in the axis line direction of the winding stem 1110 is determined by a switch apparatus including a setting lever 1190, a yoke 1192, a yoke spring 1194 and a setting lever jumper 1196.
- a winding pinion 1112 is provided rotatably at a guide shaft portion of the winding stem 1110.
- a ratchet wheel 1116 is rotated by rotation of the crown wheel 1114. By rotating the ratchet wheel 1116, a mainspring 1122 contained in a barrel complete 1120 is wound up.
- a center wheel & pinion 1124 is rotated by rotation of the barrel complete 1120.
- An escape wheel & pinion 1130 is rotated via rotation of a fourth wheel & pinion 1128, a third wheel & pinion 1126 and the center wheel & pinion 1124.
- the barrel complete 1120, the center wheel & pinion 1124, the third wheel & pinion 1126 and the fourth wheel & pinion 1128 constitute a front train wheel.
- An escapement & speed control apparatus for controlling rotation of the front train wheel includes a balance with hairspring 1140, the escape wheel & pinion 1130 and a pallet fork 1142.
- the balance with hairspring 1140 includes a balance stem 1140a, a balance wheel 1140b and a hairspring 1140c.
- a cannon pinion 1150 is simultaneously rotated.
- a minute hand 1152 attached to the cannon pinion 1150 displays "minute”.
- the cannon pinion 1150 is provided with a slip mechanism relative to the center pinion & wheel 1124.
- an hour wheel 1154 is rotated.
- An hour hand 1156 attached to the hour wheel 1154 displays "hour”.
- the barrel complete 1120 is supported rotatably by the main plate 1102 and a barrel bridge 1160.
- the center wheel & pinion 1124, the third wheel & pinion 1126, the fourth wheel & pinion 1128 and the escape wheel & pinion 1130 are supported rotatably by the main plate 1102 and a train wheel bridge 1162.
- the pallet fork 1142 is supported rotatably by the main plate 1102 and a pallet bridge 1164.
- the balance with hairspring 1140 is supported rotatably by the main plate 1102 and a balance bridge 1166.
- the hairspring 1140c is a leaf spring in a helical (spiral) shape having a plural turn number. An inner end portion of the hairspring 1140c is fixed to a hairspring holder 1140d fixed to the balance stem 1140a and an outer end portion of the hairspring 1140c is fixed via a hairspring stud 1170a attached to a stud support 1170 fixed to the balance bridge 1166 by fastening screws.
- a regulator 1168 is attached rotatably to the balance bridge 1166.
- a hairspring bridge 1168a and a hairspring rod 1168b are attached to the regulator 1168.
- a portion of the hairspring 1140c proximate to the outer end portion is disposed between the hairspring bridge 1168a and the hairspring rod 1168b.
- mainspring torque is reduced.
- the mainspring torque is about 27 g ⁇ cm in the fully wound state, becomes about 23 g ⁇ cm after elapse of 20 hours from the fully wound state and becomes about 18 g ⁇ cm after elapse of 40 hours from the fully wound state.
- the swing angle of the balance with hairspring is also reduced.
- the swing angle of the balance with hairspring is about 240-270 degrees and when the mainspring torque is 20-25 g ⁇ cm, the swing angle of the balance with hairspring is about 180-240 degrees.
- a transitional change of instantaneous rate with regard to swing angle of a balance with hairspring according to a conventional representative mechanical timepiece (numerical value indicating accuracy of timepiece).
- the "instantaneous rate” or the “rate” is defined as "a value indicating gain or loss of a mechanical timepiece after elapse of one day after the mechanical timepiece is assumed to be left for one day while maintaining state or environment of swing angle of a balance with hairspring or the like when the rate is measured”.
- a swing angle of a balance with hairspring is equal to or larger than 240 degrees or is equal to or smaller than 200 degrees, the instantaneous rate is retarded.
- the instantaneous rate is about 0 through 5 seconds / day (gain of 0 through 5 seconds per day), however, when the swing angle of the balance with hairspring is about 170 degrees, the instantaneous rate becomes about -20 seconds / day (loss of about 20 seconds per day).
- a transitional change of elapse time and instantaneous rate when a mainspring is rewound from a fully wound state in a conventional representative mechanical timepiece in the conventional mechanical timepiece, "rate" indicating gain of the timepiece or loss of the timepiece per day, is provided by integrating instantaneous rate with regard to elapse time of rewinding the balance with hairspring from a fully wound state, which is indicated in Fig. 15, over 24 hours.
- the conventional mechanical timepiece with elapse of duration time period of rewinding the mainspring from the fully wound state, the mainspring torque is reduced, the swing angle of the balance with hairspring is also reduced and accordingly, the instantaneous rate is retarded. Therefore, according to the conventional mechanical timepiece, by estimating loss of the timepiece after elapse of the duration time period of 24 hours, instantaneous rate when the mainspring is brought into the fully wound state, is previously gained and previously adjusted such that the "rate" indicating gain of the timepiece or loss of the timepiece per day becomes positive.
- the instantaneous rate is about 3 seconds / day (gain of about 3 seconds per day), after elapse of 20 hours from the fully wound state, the instantaneous rate becomes about -3 seconds / day (loss of about 3 seconds per day), after elapse of 24 hours from the fully wound state, the instantaneous rate becomes about -8 seconds per day (loss of about 8 seconds per day) and after elapse of 30 hours from the fully wound state, the instantaneous rate becomes about -16 seconds / day (loss of about 16 seconds per day).
- the accuracy of the timepiece is determined by accuracy of operating the escapement & speed control apparatus including the balance with hairspring alternately repeating right rotation and left rotation, the escape wheel & pinion rotating based on rotation of the front train wheel and the pallet fork for controlling rotation of the escape wheel & pinion based on operation of the balance with hairspring.
- the period of the rotational oscillation of operating the balance with hairspring is obliged to increase and it is difficult to fabricate the escapement & speed control apparatus including such a balance with hairspring.
- the mechanical timepiece of the invention includes a movement constituted to include a mainspring constituting a power source of the mechanical timepiece, a front train wheel rotated by a rotational force in rewinding the mainspring and an escapement & speed control apparatus for controlling rotation of the front train wheel, the escapement & speed control apparatus including a balance with hairspring alternately repeating right rotation and left rotation, an escape wheel & pinion rotated based on rotation of the front train wheel and a pallet fork for controlling rotation of the escape wheel & pinion based on an operation of the balance with hairspring and the balance with hairspring including a hairspring, a balance stem and a balance wheel.
- the mechanical timepiece of the invention further includes a crystal oscillator constituting an oscillation source, IC including a dividing unit for outputting a signal with respect to time by inputting an output signal outputted by oscillating the crystal oscillator and dividing the output signal and an electricity storing member for operating IC.
- a crystal oscillator constituting an oscillation source
- IC including a dividing unit for outputting a signal with respect to time by inputting an output signal outputted by oscillating the crystal oscillator and dividing the output signal and an electricity storing member for operating IC.
- the mechanical timepiece of the invention further includes a rate detecting unit for detecting a rate of the mechanical timepiece and a balance power generation control unit constituted to control a period of rotational oscillation of the balance with hairspring based on a divided signal divided by the dividing unit and an operational state signal indicating the rate detected by the rate detecting unit and generate power by the rotational oscillation of the balance with hairspring.
- the balance power generation control unit of the mechanical timepiece includes a balance magnet provided at the balance with hairspring and coils arranged to be capable of exerting magnetic force to the balance magnet, wherein the coils are capable of restraining rotation of the balance with hairspring by exerting the magnetic force to the balance magnet based on the divided signal divided by the dividing unit and the operational state signal indicating the rate detected by the rate detecting unit.
- the balance power generation control unit of the mechanical timepiece can change a period of the rotational oscillation of the balance with hairspring by controlling rotation of the balance with hairspring by applying the "Airy's theorem".
- Airy's theorem indicates that "oscillation of a pendulum is not disturbed even when energy is applied at a center point of oscillation".
- the balance power generation control unit of the mechanical timepiece according to the invention is constituted such that the rotation of the balance with hairspring is braked at a timing prior to constituting a center of the rotational oscillation of the balance with hairspring when the rate of the mechanical timepiece gains and is constituted to brake the rotation of the balance with hairspring after passing through the center of the rotational oscillation of the balance with hairspring when the rate of the mechanical timepiece loses.
- the rotation of the balance with hairspring can be controlled accurately and the rate of the mechanical timepiece can be adjusted accurately.
- the rate detecting unit of the mechanical timepiece includes a pallet fork detecting piezoelectric element provided at a bank pin for detecting operation of the pallet fork and a pallet fork detecting signal counting unit for counting a pallet fork detecting signal outputted from the pallet fork detecting piezoelectric element.
- an electricity storing member may be, for example, a chargeable secondary battery or a chargeable condenser.
- a chargeable secondary battery for example, a lithium secondary battery can be utilized.
- the mechanical timepiece according to the invention may be provided with an automatic winding power generation unit.
- an automatic winding power generation unit it is constituted that electric energy generated by the automatic winding power generation unit is stored to the electricity storing member.
- the rectifying circuit is constituted by using a Schottky barrier diode.
- the operational speed is faster than that of a PN couple diode and forward direction voltage is low, which is optimum for rectifying low voltage.
- the mechanical timepiece of the invention it is preferable in the mechanical timepiece of the invention that the IC is constituted by using an SOI technology.
- SOI technology electrostatic capacitance of a transistor can be reduced, the operational speed can be accelerated and current consumption can be reduced.
- the balance power generation control unit of the mechanical timepiece of the invention is constituted to generate inductive current in the coils by the rotational oscillation of the balance with hairspring by conducting the coils in a constant time interval including the center of the rotational oscillation of the balance with hairspring.
- inductive current can be generated in the coils firmly and efficiently.
- a normal analog type quartz timepiece there are used battery, quartz, IC, motor, train wheel, hands and the like. According to such an analog type quartz timepiece, energy provided by battery is used for measuring time by operating quartz and IC and displaying time by rotating a motor. A ratio of energy used for measuring time by operating quartz and IC to energy used for displaying time by rotating a motor is about 3:7.
- an electricity storing member having dimensions and shape substantially the same as those of the normal analog type quartz timepiece, that is, a secondary battery or a condenser
- the secondary battery or the condenser can be used over a time period longer than the battery life of the normal analog type quartz timepiece.
- the normal mechanical timepiece can be used for about 5 years without repairing the mechanical timepiece at all and when the mechanical timepiece is overhauled after 5 years from start of use, the mechanical timepiece can be used further for about 5 years. Therefore, when the normal mechanical timepiece is overhauled once, the mechanical timepiece can be used for about 10 years.
- the mechanical timepiece of the invention even when there are used quartz and IC similar to those of the normal analog type quartz timepiece and the electricity storing member having dimensions and shape substantially the same as those of the normal analog type quartz timepiece, that is, the secondary battery or the condenser, it is not necessary to interchange the battery until the timepiece needs to overhaul. Further, according to the mechanical timepiece of the invention, when the capacity of the electricity storing member, that is, the secondary battery or the condenser is increased and power consumption of IC is reduced, there can be provided a timepiece which can be used until life of a portion of a mechanical structure expires.
- the timepiece is operated by the mechanical structure and accordingly, even when electric energy stored to the electricity storing member, that is, the secondary battery or the condenser is dissipated, there is no concern of stopping the timepiece and only accuracy of time display becomes inferior to that before the electric energy stored to the secondary battery or the condenser is dissipated.
- the mechanical timepiece of the invention when an automatic winding power generation mechanism or a handwinding power generation mechanism is mounted, there is less concern that the electric energy stored to the storing member, that is, the secondary battery or the condenser is dissipated.
- a movement 640 includes a main plate 102 constituting a base plate of the movement.
- a winding stem 110 is integrated rotatably to a winding stem guide hole 102a of the main plate 102.
- a dial (not illustrated) is attached to the movement 640 of the mechanical timepiece of the invention.
- the dial is provided with, for example, 12 o'clock graduation, 3 o'clock graduation, 6 o'clock graduation and 9 o'clock graduation.
- the winding stem 110 is provided with a square portion and a guide shaft portion.
- a clutch wheel (not illustrated) is integrated to the square portion of the winding stem 110. That is, the clutch wheel is provided with a rotational axis line the same as a rotational axis line of the winding stem 110. That is, the clutch wheel is provided with a square hole and is provided to rotate based on rotation of the winding stem 110 by fitting the square hole to the square portion of the winding stem 110.
- the clutch wheel is provided with tooth A and tooth B.
- the tooth A is provided at an end portion of the clutch wheel proximate to the center of the movement.
- the tooth B is provided at an end portion of the clutch wheel proximate to an outer side of the movement.
- the movement 640 is provided with a switch apparatus for determining a position of the winding stem 110 in the axial line direction.
- the switch apparatus includes a setting lever 132, a yoke 134, a yoke spring 136 and a setting lever jumper 136. Based on rotation of the setting lever 132, the position in the rotational axis line direction of the winding stem 110 is determined. Based on rotation of the yoke 134, a position in the rotational axis line direction of the clutch wheel is determined. Based on rotation of the setting lever 132, the yoke 134 is positioned to two positions in the rotational direction.
- a winding pinion 112 is provided rotatably at the guide shaft portion of the winding stem 110.
- the winding pinion 112 is constituted to rotate via rotation of the clutch wheel.
- a crown wheel 114 is constituted to rotate by rotation of the winding pinion 112.
- a ratchet wheel 116 is integrated to rotate by rotation of the crown wheel 114.
- the movement 640 is provided with a mainspring (not illustrated) contained in a barrel complete 120 as its power source.
- the mainspring is made of an elastic material having spring performance such as iron.
- the mainspring By rotating the ratchet wheel 116, the mainspring is constituted to be capable of being wound up.
- a center wheel & pinion 124 is constituted to rotate by rotation of the barrel complete 120.
- a third wheel & pinion 126 is constituted to rotate based on rotation of the center wheel & pinion 124.
- a fourth wheel & pinion 128 is constituted to rotate based on rotation of the third wheel & pinion 126.
- An escape wheel & pinion 130 is constituted to rotate based on rotation of the fourth wheel & pinion 128.
- the barrel complete 120, the center wheel & pinion 124, the third wheel & pinion 126 and the fourth wheel & pinion 128 constitute a front train wheel.
- the movement 640 is integrated with an escapement & speed control apparatus for controlling rotation of the front train wheel.
- the escapement & speed control apparatus includes a balance with hairspring 140 repeating right rotation and left rotation at a constant period, the escape wheel & pinion 130 rotating based on rotation of the front train wheel and a pallet fork 142 for controlling rotation of the escape wheel & pinion 130 based on operation of the balance with hairspring 140.
- the basic operational principle of the escape wheel & pinion 130, the pallet fork 142 and the balance with hairspring 140 is similar to that of the movement of the conventional mechanical timepiece.
- the pallet fork 142 includes an inlet finger jewel 142a provided to be capable of being brought into contact with the escape wheel & pinion 130, an outlet finger jewel 142b provided to be capable of being brought into contact with the escape wheel & pinion 130, a pallet fork sword tip portion 142c provided such that a swing jewel (not illustrated) of the balance with hairspring enters and leaves and a pallet fork rod portion 142d.
- the swing jewel When the balance with hairspring and the swing jewel are rotated in the left direction (counterclockwise direction), the swing jewel enters the pallet fork sword tip portion 142c. Then, the swing jewel rotates the pallet fork 142 in the right direction (clockwise direction) and makes the pallet fork 142 stop and release on the side of the inlet finger jewel 142a. Then, a rocking corner of the escape wheel & pinion 130 moves to an impact face of the inlet finger jewel 142a. By force of the escape wheel & pinion 130, the impact face of the inlet finger jewel 142a is pushed up and the pallet fork 142 is rotated in the right direction (clockwise direction). Then, the pallet fork sword tip portion 142c presses the swing jewel and rotates the swing jewel in the left direction (counterclockwise direction).
- the pallet fork 142 rotates the swing jewel in the left direction (counterclockwise direction). Further, the pallet fork rod portion 142d is brought into contact with a first bank pin 102d of the main plate and rotation of the pallet fork 142 is stopped to thereby constitute a secondary stationary state.
- the balance with hairspring 140 is rotated in the left direction (counterclockwise direction) and carries out free rotation.
- the swing jewel is brought into contact with the pallet fork sword tip portion 142c and the pallet fork 142 is rotated in the left direction (counterclockwise direction). Then, the pallet fork 142 is made to stop and release on the side of the outlet finger jewel 142b and operation similar to that of the outlet finger jewel 142b is repeated on the side of the inlet finger jewel 142a.
- a cannon pinion (not illustrated) is simultaneously rotated.
- a minute hand (not illustrated) attached to the cannon pinion is constituted to display "minute”.
- the cannon pinion is provided with a slip mechanism having a predetermined slip torque relative to the center wheel & pinion 124.
- a minute wheel (not illustrated) is rotated.
- an hour wheel (not illustrated) is rotated.
- An hour hand attached to the hour wheel is constituted to display "hour”.
- the barrel complete 120 is supported rotatably by the main plate 102 and a barrel bridge 160.
- the center wheel & pinion 124, the third wheel & pinion 126, the fourth wheel & pinion 128 and the escape wheel & pinion 130 are supported rotatably by the main plate 102 and a train wheel bridge 162.
- the pallet fork 142 is supported rotatably by the main plate 102 and a pallet bridge 164.
- the balance with hairspring 140 is supported rotatably by the main plate 102 and a balance bridge 166. That is, an upper mortise of the balance stem 140a is supported rotatably by a balance upper bearing 166a fixed to the balance bridge 166.
- the balance upper bearing 166a includes a balance upper hole jewel and a balance upper cap jewel.
- the balance upper hole jewel and the balance upper cap jewel are made of an insulating material such as ruby.
- the balance with hairspring 140 includes a balance stem 140a, a balance wheel 140b and a hairspring 140c.
- a lower mortise of the balance stem 140a is supported rotatably by a balance lower bearing 102b fixed to the main plate 102.
- the balance lower bearing 102b includes a balance lower hole jewel and a balance lower cap jewel.
- the balance lower hole jewel and the balance lower cap jewel are made of an insulating material such as ruby.
- the hairspring 140c is a leaf spring in a helical (spiral) shape having a plural turn number. An inner end portion of the hairspring 140c is fixed to a hairspring holder fixed to the balance stem 140a and an outer end portion of the hairspring 140c is fixed by screws via a hairspring stud attached to a stud support 166a rotatably fixed to the balance bridge 166.
- the balance bridge 166 is made of an electrically conductive material of metal such as brass.
- the stud support 166a is made of an eclectically conductive material of metal such as iron.
- the hairspring 140c is elongated and contracted in the radius direction of the hairspring 140c in accordance with rotational angle of rotating the balance with hairspring 140. For example, in a state shown by Fig. 1, when the balance with hairspring 140 is rotated in the clockwise direction, the hairspring 140c is contracted in a direction toward the center of the balance with hairspring 140 and in contrast thereto, when the balance with hairspring 140 is rotated in the counterclockwise direction, the hairspring 140c is expanded in a direction remote from the center of the balance with hairspring 140.
- the hairspring 140c is made of an elastic material having spring performance such as "elinvar". That is, the hairspring 140c is made of an electricity conductive material of metal.
- the effective length of the hairspring 140c is determined by determining positions of the hairspring bridge 426 and the hairspring rod 428 by rotating a regulator 420. Further, when the effective length of the hairspring 140c is determined, the period of the rotational oscillation of the balance with hairspring 140 is determined and the rate of the mechanical timepiece is determined.
- coils 180, 180a, 180b and 180c are attached to a face on the front side of the main plate 102 to be opposed to a side face of the balance wheel 140b on the side of the main plate.
- the number of the coils is, for example, four as illustrated, the number may be one, may be two, may be three or may be four or more.
- a balance magnet 140e is attached to the side face of the balance with hairspring 140b on the side of the main plate to be opposed to the face on the front side of the main plate 102.
- an interval in a circumferential direction of the coil in the case of arranging the plurality of pieces of coils is an interval in the circumferential direction of an S pole and an N pole of the balance magnet 140e arranged to be opposed to the coil multiplied by an integer
- the interval may not be the same for all of the coils in the circumferential direction.
- wirings among the respective coils may be wired in parallel such that currents generated at the respective coils by electromagnetic induction are not canceled by each other.
- wiring among the respective coils may be wired in parallel such that currents generated at the respective coils by electromagnetic induction are not canceled by each other.
- the balance magnet 140e is provided with a mode in an annular shape (ring-like shape) and along its circumferential direction, for example, there are alternately provided magnet portions comprising 12 pieces of S poles 140s1 through 140s12 and 12 pieces of N poles 140n1 through 140n12 which are polarized in the up and down direction.
- the number of the magnet portions arranged in the annular shape (ring-like shape) in the balance magnet 140e is 12 in the example shown in Fig. 4, the number may be a plural number of 2 or more. In this case, it is preferable that a length of one chord of the magnet portion is substantially equal to an outer diameter of one coil provided to be opposed to the magnet portion.
- a gap is provided between the balance magnet 140e and the coils 180, 180a, 180b and 180c.
- a magnitude STC of the gap between the balance magnet 140e and the coils 180, 180a, 180b and 180c, is determined such that magnetic force of the balance magnet 140e can effect influence on the coils 180, 180a, 180b and 180c when the coils 180, 180a, 180b and 180c are conducted.
- the balance magnet 140e is fixed to a face of the balance ring 140b on the side of the main plate by adhering or the like in a state in which one face of the balance magnet 140e is brought into contact with a ring-like rim portion of the balance wheel 140b and other face thereof is opposed to the face of the main plate 102 on the front side.
- a first lead wire 182 is provided to connect one terminal of the coil 180 and a first coil terminal of IC642.
- a second lead wire 184 is provided to connect one terminal of the coil 180c and a second coil terminal of IC642.
- the thickness of the hairspring 140c is illustrated to exaggerate, the thickness is, for example, 0.021 millimeter.
- the balance magnet 140e for example, an outer diameter thereof is about 9 millimeters, an inner diameter thereof is about 7 millimeters, a thickness thereof is about 1 millimeter and a magnetic flux density thereof is about 0.02 tesla.
- a turn number of each of the coils 180, 180a, 180b and 180c is, for example, 8 turns and the coil wire diameter is about 25 micrometers.
- the gap STC between the balance magnet 140e and the coils 180, 180a, 180b and 180c is, for example, about 0.4 millimeter.
- a crystal oscillator 210 constitutes an oscillation source of a circuit for counting time.
- IC642 includes a dividing circuit 214, a corrected pulse comparing circuit 216, a waveform correcting circuit 332, an electromagnetic brake operating circuit 340 and a rectifying circuit 342.
- the dividing circuit 214 inputs an output signal outputted by oscillating the crystal oscillator 210, divides the signal and outputs a signal with respect to time.
- the waveform correcting circuit 332 corrects a waveform of a detected signal outputted from a rate detecting unit.
- the corrected pulse comparing circuit 216 compares a divided signal outputted from the dividing circuit 214 and a detected signal outputted from the waveform correcting circuit 332.
- the electromagnetic brake operating circuit 340 conducts the coils 180, 180a, 180b and 180c in response to an operational timing signal outputted from the waveform correcting circuit 332 based on a signal outputted from the corrected pulse comparing circuit 216.
- inductive current is generated by a change in magnetic flux of the balance magnet 140e.
- force for restraining rotational movement of the balance with hairspring 140 is operated on the balance with hairspring 140.
- the swing angle of the balance with hairspring 140 can be reduced by exerting brake force to the balance with hairspring 140 for restraining rotation of the balance with hairspring 140.
- the rectifying circuit 342 is provided for rectifying the inductive current generated by changing the magnetic flux of the balance magnet 140e in a state of conducting the coils 180, 180a, 180b and 180c.
- An electricity storing member that is, a condenser 352 constitutes a power source for operating IC642.
- Current rectified by the rectifying circuit 342 is conducted to the condenser 352 and electric energy generated by the inductive current is stored to the condenser 352.
- the electricity storing member may be a chargeable secondary battery or may be a chargeable condenser.
- the rectifying circuit 342 maybe built in IC642 as illustrated or may be constituted separately from IC642 by using an external element.
- the rectifying circuit 342 is fabricated by using a Schottky barrier diode (SBD).
- SBD Schottky barrier diode
- IC642 it is preferable to fabricate IC642 by using "SOI technology".
- SOI technology refers to "silicon on insulator".
- electrostatic capacitance of a transistor can be reduced, operational speed thereof can be accelerated and current consumption can be reduced.
- a board fabricated by using the "SOI technology” can be obtained from, for example, Komatsu electronic metal under commercial name of "SIMOX”.
- a train wheel 224 is rotated with a mainspring 222 as a power source. It is constituted that by rotation of the train wheel 224, a minute hand 226 displays "minute” and an hour hand 228 displays "hour”. The minute hand 226 is fixed to the center wheel & pinion 124. The center wheel & pinion 124 is constituted to make one rotation in one hour. By rotation of the train wheel 224, the escape wheel & pinion 130 is rotated. The pallet fork 142 controls rotation of the escape wheel & pinion 130 based on operation of the balance with hairspring 140.
- a pallet fork detecting piezoelectric element 336 is fixed to the first bank pin 102d of the main plate 102. Therefore, the pallet fork rod portion 142d is constituted to be brought into contact with the pallet fork detecting piezoelectric element 336. At an instance at which the pallet fork rod portion 142d is brought into contact with the pallet fork detecting piezoelectric element 336, the pallet fork detecting piezoelectric element 336 generates voltage (refer to (4) of Fig. 8).
- the pallet fork detecting piezoelectric element 336 constitutes the rate detecting unit 330 for detecting a rotational operation state of the train wheel. Further, it is constituted that when the pallet fork rod portion 142d is brought into contact with the pallet fork detecting piezoelectric element 336, a detected signal is inputted to IC642. The balance with hairspring 140 is oscillated at 3 Hertz and accordingly, the rate detecting unit 330 outputs the detected signal at 3 Hertz.
- the waveform correcting circuit 332 is constituted to input a detected signal outputted from the pallet fork detecting piezoelectric element 336.
- the corrected pulse comparing circuit 216 is constituted to compare a period of (1/3) second measured by the escapement & speed control apparatus (refer to (1) of Fig. 6) and a period of (1/3) second measured by IC642 (refer to (2) of Fig. 6).
- the rate detecting unit 330 outputs to IC642, the detected signal of the period of (1/3) second measured by the escapement & speed control apparatus including the escape wheel & pinion 130, the pallet fork 142 and the balance with hairspring 140 by bringing the pallet fork rod portion 142d into contact with the pallet fork detecting piezoelectric element 336.
- the rate detecting unit 330 includes the pallet fork rod portion 142d and the pallet fork detecting piezoelectric element 336.
- the dividing circuit 214 is constituted to divide an output signal of 32768 Hertz outputted by oscillating the crystal oscillator 210 and output a divided signal having a period of (1/3) second to the corrected pulse comparing circuit 216.
- the corrected pulse comparing circuit 216 is constituted to compare the detected signal having the period of (1/3) second measured by the escapement & speed control apparatus (refer to (1) of Fig. 6) and the divided signal having the period of (1/3) second outputted by the dividing circuit 214 in IC642 (refer to (2) of Fig. 6) and count a difference therebetween (refer to (3) of Fig. 6).
- the difference is a time period to be corrected by adjusting the rate in the mechanical timepiece of the invention.
- the electromagnetic brake operating circuit 340 conducts the coils 180, 180a, 180b and 180c based on the signal outputted from the corrected pulse comparing circuit 216.
- the balance with hairspring 140 is exerted with brake force for restraining rotation of the balance with hairspring 140 to thereby reduce the swing angle of the balance with hairspring 140.
- the corrected pulse comparing circuit 216, the electromagnetic brake operating circuit 340, the balance magnet 140e and the coils 180, 180a, 180b and 180c constitute portions for controlling operation of the balance with hairspring 140. Further, the balance power generation control unit is constituted, for example, to normally control operation of the balance with hairspring 140.
- the rate of the mechanical timepiece can be adjusted to correspond to the difference shown by (3) of Fig. 6.
- the waveform correcting circuit 332 inputs the detected signal outputted from the pallet fork detecting piezoelectric element 336.
- the waveform correcting circuit 332 inputs the detected signal counted by the pallet fork detecting signal counting unit, shapes the waveform and outputs a corrected signal as shown by (5) of Fig. 8.
- the dividing circuit 214 outputs the divided signal as shown by (2) of Fig. 6 to the corrected pulse comparing circuit 216.
- the corrected pulse comparing circuit 216 compares the output signal having the period of (1/3) second outputted from the waveform correcting circuit 332 (refer to (1) of Fig. 6) and the divided signal having the period of (1/3) second outputted from the dividing circuit 214 (refer to (2) of Fig. 6) and counts the difference (refer to (3) of Fig. 6).
- a timing of bringing the pallet fork rod portion 142d into contact with the pallet fork detecting piezoelectric element 336 is known and accordingly, a timing of stopping the pallet fork 142 is known. Therefore, from such a timing of stopping the pallet fork 142, rotational direction of rotating the balance with hairspring 140 and a timing of the center of the rotational oscillation of the balance with hairspring 140 can be detected.
- the corrected pulse comparing circuit 216 determines whether the rate of the timepiece gains or whether the rate of the timepiece loses by comparing the period of (1/3) second measured by the escapement & speed control apparatus and the period of (1/3) second measured by IC642.
- the hairspring 140c is elongated and contracted in the radius direction of the hairspring 140c in accordance with rotational angle of rotating the balance with hairspring 140. For example, in a state shown by Fig. 2, when the balance with hairspring 140 is rotated in the clockwise direction, the hairspring 140c is contracted in the direction toward center of the balance with hairspring 140, in contrast thereto, when the balance with hairspring 140 is rotated in the counterclockwise direction, the hairspring 140c is expanded in the direction remote from the center of the balance with hairspring 140.
- the balance power generation control unit 350 of the mechanical timepiece according to the invention is constituted to change the period of the rotational oscillation of the balance with hairspring by controlling the rotation of the balance with hairspring 140 by applying the "Airy's theorem".
- the control of the rotation of the balance with hairspring 140 may be carried out at a time point apart from the center of the rotational oscillation of the balance with hairspring 140 at a certain time period over a constant time interval or may be carried out over a constant time period including the center of the rotational oscillation of the balance with hairspring 140.
- the balance power generation control unit 350 of the mechanical timepiece according to the invention is constituted to brake the rotation of the balance with hairspring 140 at a timing prior to constitute the center of the rotational oscillation of the balance with hairspring 140 (timing of t1 of (5) of Fig. 8) when the rate of the mechanical timepiece gains. Further, the balance power generation control unit 350 of the mechanical timepiece according to the invention is constituted to brake the rotation of the balance with hairspring 140 at a timing which has passed through the center of the rotational oscillation of the balance with hairspring 140 (timing of t2 of (5) of Fig. 8) when the rate of the mechanical timepiece loses.
- the timing of conducting the coils 180, 180a, 180b and 180c by operating the electromagnetic brake operating circuit 340 is determined in response to a signal outputted from the waveform correcting circuit 332. Further, a duration time period of conducting the coils 180, 180a, 180b and 180c by operating the electromagnetic brake operating circuit 340, is determined based on a signal outputted from the corrected pulse comparing circuit 216.
- the rotation of the balance with hairspring 140 can be controlled accurately and the rate of the mechanical timepiece can be adjusted accurately.
- the mechanical timepiece of the invention when the rate of the mechanical timepiece gains, at the timing prior to constitute the center of the rotational oscillation of the balance with hairspring 140 (timing of t1 of (5) of Fig. 8), the coils 180, 180a, 180b and 180c are conducted and the magnetic flux of the balance magnet 140e effects influence on the coils 180, 180a, 180b and 180c. As a result, the period of the rotational oscillation of the balance with hairspring 140 is reduced by operation of the balance magnet 140e and the coils 180, 180a, 180b and 180c.
- the mechanical timepiece of the invention when the rate of the mechanical timepiece loses, at the timing which has passed through the center of the rotational oscillation of the balance with hairspring 140 (timing of t2 of (5) of Fig. 8), the coils 180, 180a, 180b and 180c are conducted and the magnetic flux of the balance magnet 140e effects influence on the coils 180, 180a, 180b and 180c. As a result, the period of the rotational oscillation of the balance with hairspring 140 increases by operation of the balance magnet 140e and the coils 180, 180a, 180b and 180c.
- the mechanical timepiece of the invention constituted in this way, the period of the rotational oscillation of the balance with hairspring 140 can efficiently be controlled.
- a value of time of adjusting the period of the rotational oscillation of the balance with hairspring 140 based on a result of determination of the corrected pulse comparing circuit 216 there may be previously calculated by experiment, a relationship between the rate of the mechanical timepiece and the change in the period of the rotational oscillation of the balance with hairspring 140 by the inductive current generated by the change in the magnetic flux of the balance magnet 140e by conducting the coils 180, 180a, 180b and 180c and stored to the corrected pulse comparing circuit 216.
- the rate of the mechanical timepiece can be adjusted with high accuracy.
- the coils 180, 180a, 180b and 180c are conducted, for example, in the constant time interval including the center of the rotational oscillation of the balance with hairspring 140.
- the magnetic flux of the balance magnet 140e is changed by the rotational oscillation of the balance with hairspring 140.
- the inductive current is generated in the coils 180, 180a, 180b and 180c.
- the generated inductive current is rectified by the rectifying circuit 342 and is stored to the electricity storing member, that is, the condenser 352. Therefore, the condenser 352 constitutes the power source of operating IC642.
- the “constant time period including the center of the rotational oscillation of the balance with hairspring 140" can be set, for example, between a time interval in correspondence with a range of plus and minus 30 degrees (when rotation in the right direction constitutes plus and rotation in the left direction constitutes minus) of the swing angle from the center of the oscillation of the balance with hairspring and a time interval in correspondence with a range of plus and minus 120 degrees of the swing angle from the center of the oscillation of the balance with hairspring.
- the period of the rotational oscillation of the balance with hairspring 140 can efficiently be controlled by adjusting a power generation amount of the inductive current generated at the coils 180, 180a, 180b and 180c.
- circuits for carrying out various functions may be constituted in IC or IC may be PLA-IC including programs for carrying out various operations.
- external elements such as resistor, condenser, coil, diode, transistor and the like along with IC if necessary.
- mainspring torque of the mainspring is set to 60g ⁇ cm.
- the mechanical timepiece is fabricated such that 5g ⁇ cm in the mainspring torque is used for power generation.
- a reduction ratio of gears from the barrel complete containing the mainspring to the escape wheel & pinion is 1/5040.
- synthesized efficiency of the train wheel and the escapement is 30 %.
- the radius r of the balance wheel of the balance with hairspring is 0.42 cm
- the width of the balance magnet is 0.04 cm
- the distance between the balance magnet and the coils is, for example, 0.04 cm.
- the force of the outer ring portion of the balance wheel is as follows.
- the energy ⁇ E generated in the coil in one second is as follows.
- the power necessary for driving the quartz unit and IC in one second is 0.09 [ ⁇ W]
- the energy ⁇ E generated in the coil in one second is 0.12 [ ⁇ W] and accordingly, it has been confirmed that the embodiment of the mechanical timepiece according to the invention is operated firmly.
- a step-up circuit is not used.
- the rectifier when the rectifier is constituted by using a Schottky barrier diode, 0.2 [V] is needed for the rectifier and 1.5 [V] is needed for IC. Therefore, 2 [V] is needed for the maximum voltage generated in the coil.
- the mechanical timepiece of the invention four pieces of the coils having the above-described specification are prepared and wired in series. Further, the balance with hairspring is fabricated by iron.
- voltage generated at the coil is about 2.36 [V]. Therefore, according to the embodiment of the mechanical timepiece of the invention, it has been confirmed that the condenser can be charged without using a step-up circuit.
- the mechanical timepiece of the invention is suitable for fabricating a mechanical timepiece having high accuracy.
- the rate can accurately be adjusted by controlling the period of the rotational oscillation of the balance with hairspring by using the balance magnet.
Landscapes
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- Electromechanical Clocks (AREA)
- Springs (AREA)
- General Electrical Machinery Utilizing Piezoelectricity, Electrostriction Or Magnetostriction (AREA)
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
WOPCT/JP99/07290 | 1999-12-24 | ||
PCT/JP1999/007290 WO2001048565A1 (fr) | 1999-12-24 | 1999-12-24 | Montre mecanique avec unite de commande de rouage |
PCT/JP2000/000679 WO2001048567A1 (fr) | 1999-12-24 | 2000-02-08 | Dispositif d'horlogerie mecanique pourvu d'un mecanisme de commande generateur de puissance du balancier annulaire regle |
Publications (2)
Publication Number | Publication Date |
---|---|
EP1241538A1 true EP1241538A1 (de) | 2002-09-18 |
EP1241538A4 EP1241538A4 (de) | 2005-06-15 |
Family
ID=14237689
Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP99961377A Withdrawn EP1164441A1 (de) | 1999-12-24 | 1999-12-24 | Mechanische uhr mit einer räderwerkssteuerungseinheit |
EP00902142A Withdrawn EP1241538A4 (de) | 1999-12-24 | 2000-02-08 | Mechanische uhr mit energieerzeugungssteuermechanismus der regulierten unruh |
Family Applications Before (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP99961377A Withdrawn EP1164441A1 (de) | 1999-12-24 | 1999-12-24 | Mechanische uhr mit einer räderwerkssteuerungseinheit |
Country Status (4)
Country | Link |
---|---|
EP (2) | EP1164441A1 (de) |
CN (2) | CN1347520A (de) |
HK (1) | HK1046170A1 (de) |
WO (2) | WO2001048565A1 (de) |
Cited By (8)
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EP3339982A1 (de) * | 2016-12-23 | 2018-06-27 | The Swatch Group Research and Development Ltd | Uhrwerksanordnung, die einen mechanischen oszillator umfasst, der mit einer einstellvorrichtung verbunden ist |
WO2018177779A1 (fr) * | 2017-03-28 | 2018-10-04 | The Swatch Group Research And Development Ltd | Pièce d'horlogerie comprenant un mouvement mécanique dont la marche est améliorée par un dispositif de correction |
WO2018177774A1 (fr) * | 2017-03-28 | 2018-10-04 | The Swatch Group Research And Development Ltd | Piece d'horlogerie mecanique comprenant un mouvement dont la marche est amelioree par un dispositif de correction |
EP3502797A1 (de) | 2017-12-20 | 2019-06-26 | The Swatch Group Research and Development Ltd | Uhrwerksanordnung, die einen mechanischen oszillator umfasst, der mit einer einstellvorrichtung verbunden ist |
EP3502798A1 (de) | 2017-12-20 | 2019-06-26 | The Swatch Group Research and Development Ltd | Uhrwerksanordnung, die einen mechanischen oszillator umfasst, der mit einer einstellvorrichtung verbunden ist |
EP3502796A1 (de) | 2017-12-20 | 2019-06-26 | The Swatch Group Research and Development Ltd | Uhrwerksanordnung, die einen mechanischen oszillator umfasst, der mit einer einstellvorrichtung verbunden ist |
EP3584645A1 (de) * | 2018-06-19 | 2019-12-25 | The Swatch Group Research and Development Ltd | Uhr, die ein mechanisches uhrwerk umfasst, dessen ganggenauigkeit durch eine elektromechanische vorrichtung reguliert wird |
EP3629104A1 (de) * | 2018-09-27 | 2020-04-01 | The Swatch Group Research and Development Ltd | Uhrwerksanordnung, die einen mechanischen oszillator umfasst, der mit einer elektronischen vorrichtung zur regulierung seiner mittleren frequenz verbunden ist |
Families Citing this family (11)
Publication number | Priority date | Publication date | Assignee | Title |
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EP1359476A1 (de) * | 2002-05-02 | 2003-11-05 | Zenith International SA | Mechanische Uhr mit Tourbillon |
EP1437634A1 (de) * | 2002-12-19 | 2004-07-14 | Glashütter Uhrenbetrieb GmbH | Feinregulierungsvorrichtung für eine Unruh-Spiralfeder |
JP4714579B2 (ja) * | 2005-12-26 | 2011-06-29 | セイコーインスツル株式会社 | 時計 |
CH705118B1 (fr) * | 2007-12-27 | 2012-12-31 | Chopard Technologies Sa | Mouvement horloger comportant un organe réglant à fréquence d'oscillation élevée. |
EP2407830B1 (de) * | 2010-07-15 | 2014-11-05 | Rolex Sa | Uhr |
CH707005B1 (fr) * | 2012-09-25 | 2023-02-15 | Richemont Int Sa | Mouvement de montre-chronographe avec barillet et régulateur à quartz. |
CN109690424B (zh) * | 2016-03-14 | 2021-07-16 | Lvmh瑞士制造公司 | 用于钟表的装置、包括该装置的钟表装置机芯和钟表 |
BE1024256B1 (nl) * | 2016-06-02 | 2018-01-16 | Mintiens Benoît | Mechanisch uurwerk. |
EP3540528B1 (de) * | 2018-03-16 | 2020-08-05 | The Swatch Group Research and Development Ltd | Uhr, die ein mechanisches uhrwerk umfasst, dessen ganggenauigkeit durch eine elektronische vorrichtung reguliert wird |
EP3629103B1 (de) * | 2018-09-28 | 2021-05-12 | The Swatch Group Research and Development Ltd | Uhr, die ein mechanisches uhrwerk umfasst, dessen ganggenauigkeit durch eine elektronische vorrichtung reguliert wird |
EP3770694B1 (de) | 2019-07-23 | 2021-12-08 | Omega SA | Anschlagkäfig für uhr mit zwei elastischen anschlagelementen |
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- 1999-12-24 EP EP99961377A patent/EP1164441A1/de not_active Withdrawn
-
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- 2000-02-08 CN CN00806505A patent/CN1347520A/zh active Pending
- 2000-02-08 WO PCT/JP2000/000679 patent/WO2001048567A1/ja not_active Application Discontinuation
- 2000-02-08 EP EP00902142A patent/EP1241538A4/de not_active Withdrawn
- 2000-02-08 CN CN00819167A patent/CN1434933A/zh active Pending
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Cited By (26)
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US10386791B2 (en) | 2016-12-23 | 2019-08-20 | The Swatch Group Research And Development Ltd | Timepiece assembly comprising a mechanical oscillator associated with a regulating device |
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CN108241281B (zh) * | 2016-12-23 | 2020-12-25 | 斯沃奇集团研究和开发有限公司 | 包括与调节装置相关联的机械振荡器的钟表组件 |
EP3339982A1 (de) * | 2016-12-23 | 2018-06-27 | The Swatch Group Research and Development Ltd | Uhrwerksanordnung, die einen mechanischen oszillator umfasst, der mit einer einstellvorrichtung verbunden ist |
WO2018177779A1 (fr) * | 2017-03-28 | 2018-10-04 | The Swatch Group Research And Development Ltd | Pièce d'horlogerie comprenant un mouvement mécanique dont la marche est améliorée par un dispositif de correction |
WO2018177774A1 (fr) * | 2017-03-28 | 2018-10-04 | The Swatch Group Research And Development Ltd | Piece d'horlogerie mecanique comprenant un mouvement dont la marche est amelioree par un dispositif de correction |
US11300929B2 (en) | 2017-03-28 | 2022-04-12 | The Swatch Group Research And Development Ltd | Timepiece comprising a mechanical movement which running is enhanced by a regulation device |
US11480925B2 (en) | 2017-03-28 | 2022-10-25 | The Swatch Group Research And Development Ltd | Mechanical timepiece comprising a movement which running is enhanced by a regulation device |
CN110520802A (zh) * | 2017-03-28 | 2019-11-29 | 斯沃奇集团研究和开发有限公司 | 包括通过校正装置增强其运行的机械机芯的钟表 |
EP3502798A1 (de) | 2017-12-20 | 2019-06-26 | The Swatch Group Research and Development Ltd | Uhrwerksanordnung, die einen mechanischen oszillator umfasst, der mit einer einstellvorrichtung verbunden ist |
CN109991834A (zh) * | 2017-12-20 | 2019-07-09 | 斯沃奇集团研究和开发有限公司 | 包括与调节系统相关联的机械振荡器的钟表 |
CN109946948A (zh) * | 2017-12-20 | 2019-06-28 | 斯沃奇集团研究和开发有限公司 | 包括与调节系统相关联的机械振荡器的钟表 |
CN109946949A (zh) * | 2017-12-20 | 2019-06-28 | 斯沃奇集团研究和开发有限公司 | 包括与调节系统相关联的机械振荡器的钟表 |
US11868092B2 (en) | 2017-12-20 | 2024-01-09 | The Swatch Group Research And Development Ltd | Timepiece comprising a mechanical oscillator associated with a regulation system |
US11846915B2 (en) | 2017-12-20 | 2023-12-19 | The Swatch Group Research And Development Ltd | Timepiece comprising a mechanical oscillator associated with a regulation system |
CN109946948B (zh) * | 2017-12-20 | 2020-11-27 | 斯沃奇集团研究和开发有限公司 | 包括与调节系统相关联的机械振荡器的钟表 |
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US11422510B2 (en) | 2017-12-20 | 2022-08-23 | The Swatch Group Research And Development Ltd | Timepiece comprising a mechanical oscillator associated with a regulation system |
EP3502797A1 (de) | 2017-12-20 | 2019-06-26 | The Swatch Group Research and Development Ltd | Uhrwerksanordnung, die einen mechanischen oszillator umfasst, der mit einer einstellvorrichtung verbunden ist |
EP3584645A1 (de) * | 2018-06-19 | 2019-12-25 | The Swatch Group Research and Development Ltd | Uhr, die ein mechanisches uhrwerk umfasst, dessen ganggenauigkeit durch eine elektromechanische vorrichtung reguliert wird |
US11599065B2 (en) | 2018-06-19 | 2023-03-07 | The Swatch Group Research And Development Ltd | Timepiece comprising a mechanical movement wherein the working is regulated by an electromechanical device |
US11327440B2 (en) | 2018-09-27 | 2022-05-10 | The Swatch Group Research And Development Ltd | Timepiece assembly comprising a mechanical oscillator associated with an electronic device for controlling its mean frequency |
CN110955139B (zh) * | 2018-09-27 | 2021-10-01 | 斯沃奇集团研究和开发有限公司 | 包括与平均频率控制设备关联的机械振荡器的钟表组件 |
CN110955139A (zh) * | 2018-09-27 | 2020-04-03 | 斯沃奇集团研究和开发有限公司 | 包括与平均频率控制设备关联的机械振荡器的钟表组件 |
EP3629104A1 (de) * | 2018-09-27 | 2020-04-01 | The Swatch Group Research and Development Ltd | Uhrwerksanordnung, die einen mechanischen oszillator umfasst, der mit einer elektronischen vorrichtung zur regulierung seiner mittleren frequenz verbunden ist |
Also Published As
Publication number | Publication date |
---|---|
WO2001048565A1 (fr) | 2001-07-05 |
WO2001048567A1 (fr) | 2001-07-05 |
CN1434933A (zh) | 2003-08-06 |
CN1347520A (zh) | 2002-05-01 |
HK1046170A1 (zh) | 2002-12-27 |
EP1164441A1 (de) | 2001-12-19 |
EP1241538A4 (de) | 2005-06-15 |
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