CN219370210U

CN219370210U - Clock movement

Info

Publication number: CN219370210U
Application number: CN202320984853.8U
Authority: CN
Inventors: 常永泰; 王震捷
Original assignee: Shanghai Jinghe Industrial Co ltd
Current assignee: Shanghai Jinghe Industrial Co ltd
Priority date: 2023-04-27
Filing date: 2023-04-27
Publication date: 2023-07-18
Anticipated expiration: 2033-04-27

Abstract

The application discloses clock movement relates to the machinery table field, it includes core shell and driving gear, driving gear rotates to be connected on the core shell, the meshing has first drive gear on the driving gear, coaxial fixedly connected with chuck on the first drive gear, fixedly connected with one-way jump ring on the chuck, coaxial rotation is connected with four star gears on the first drive gear, one-way jump ring is used for one-way joint four star gears, fixedly connected with second drive gear on the four star gears, rotate on the core shell and be connected with the calendar dish, be provided with on the core shell and be used for giving the first drive assembly of calendar dish with the rotation of second drive gear, rotate on the core shell and be connected with first regulating wheel, be provided with on the core shell and be used for controlling first regulating wheel pivoted control assembly, still be provided with on the core shell and be used for giving the second drive assembly of second drive gear with the rotation of first regulating wheel. The method has the effect of correcting the date indicated by the calendar disc under the condition that normal operation of the watch is not affected.

Description

Clock movement

Technical Field

The present application relates to the field of mechanical watches, and in particular to a timepiece movement.

Background

The mechanical watch is a common article for indicating time, and the internal spring drives the second hand, the minute hand and the hour hand to rotate to display the time.

The traditional mechanical watch only has the function of displaying the time of day, but not the function of displaying the date of day, and the inconvenience is caused for the user to clearly judge the time, so the mechanical watch with the calendar disc is developed, and the calendar disc is driven to rotate through the spring transmission to realize the indication of the date, but the calendar disc indicates the date to be 1 day to 31 days, and the calendar disc indicates the date to be deviated for the month with 30 days or less than 30 days, and the correction is needed under the condition that the normal work of the watch is not influenced.

Disclosure of Invention

In order to correct the date indicated by the calendar disc without affecting the normal operation of the watch, the present application provides a timepiece movement.

The clock movement provided by the application adopts the following technical scheme:

the utility model provides a clock movement, includes core shell and driving gear, the driving gear rotates to be connected on the core shell, the meshing has first drive gear on the driving gear, coaxial fixedly connected with chuck on the first drive gear, fixedly connected with one-way jump ring on the chuck, coaxial rotation is connected with four star gears on the first drive gear, one-way jump ring is used for one-way joint four star gears, fixedly connected with second drive gear on the four star gears, it is connected with calendar disk to rotate on the core shell, be provided with on the core shell and be used for with the rotation of second drive gear is passed for calendar disk's first drive assembly, it is connected with first regulating wheel to rotate on the core shell, be provided with on the core shell and be used for controlling first regulating wheel pivoted control assembly, still be provided with on the core shell and be used for with the rotation of first regulating wheel is passed for second drive assembly of second drive gear.

Through adopting above-mentioned technical scheme, the driving gear rotates, the rotation of driving gear drives first drive gear and rotates, the rotation of first drive gear drives chuck and one-way jump ring and rotates, four star wheels are by one-way jump ring joint under the effect of one-way jump ring, along with the rotation of one-way jump ring, the rotation of four star wheels drives second drive gear and rotates, through first drive assembly, transfer the rotation of second drive gear to calendar dish, the self-rotation date of adjusting of calendar dish has been realized, when manual date of adjusting, through the rotation of control assembly control first regulating wheel, the rotation of first regulating wheel passes through second drive assembly and transmits the second drive gear, the rotation of second drive gear drives four star wheels and rotates, the rotation of four star wheels can not be by one-way jump ring joint, through first drive assembly, can normally transmit the rotation of second drive gear to calendar dish, manual date of adjusting has been realized, and when carrying out manual date of adjusting, automatic date of adjusting normally works, no influence.

Preferably, the control assembly comprises a rotating shaft rotatably connected to the core shell and a rotating gear fixedly connected to the rotating shaft, and the rotating gear is meshed with the first adjusting wheel.

Through adopting above-mentioned technical scheme, the user rotates the axis of rotation, and the rotation of axis of rotation drives the rotation gear and rotates, and the rotation of rotation gear drives first regulating wheel and rotates, has realized the control of first regulating wheel.

Preferably, the rotating shaft can also slide on the core shell, and a limiting assembly for limiting the rotating shaft is arranged on the core shell.

Through adopting above-mentioned technical scheme, the user can stimulate the axis of rotation, makes the axis of rotation be located different positions, is convenient for adjust when needing to carry out the date adjustment, and the axis of rotation is empty when not needing to adjust, has reduced the possibility of maloperation, carries out spacingly through spacing subassembly the axis of rotation after adjusting the position simultaneously, has increased the stability after the axis of rotation position is adjusted.

Preferably, the limiting assembly comprises a first limiting plate, a first limiting rod, a second limiting plate, a third limiting plate and a limiting spring, wherein the first limiting plate is rotationally connected to the core shell, the first limiting rod is fixedly connected to the first limiting plate, the second limiting plate is rotationally connected to the core shell, the third limiting plate is coaxially and rotationally connected to the second limiting plate, the limiting spring is fixedly connected to the core shell, one end of the first limiting plate is fixedly connected to the rotating shaft, a first limiting groove is formed in the second limiting plate, the first limiting rod is slidably connected to the first limiting groove, one end of the third limiting plate is fixedly connected to the limiting shaft, one side of the third limiting plate is attached to the limiting spring, and the other side of the third limiting plate is attached to the first limiting rod.

Through adopting above-mentioned technical scheme, when the pulling axis of rotation, the removal of axis of rotation can drive first limiting plate and third limiting plate and remove, and first gag lever post is in first spacing groove internal sliding, along with the removal of third limiting plate, spacing spring and first gag lever post all laminate on the third gag lever post, have formed linkage limit structure, carry out spacingly to the axis of rotation after adjusting, have realized the spacing of axis of rotation.

Preferably, one end of the rotating shaft far away from the rotating gear is fixedly connected with a meter handle.

Through adopting above-mentioned technical scheme, through the setting of table handle, the user of being convenient for pulls the axis of rotation and adjusts.

Preferably, the first transmission assembly comprises a twelve-hour wheel coaxially and fixedly connected to the driving gear, a third transmission gear rotationally connected to the core shell, a fourth transmission gear coaxially and fixedly connected to the third transmission gear, a fifth transmission gear rotationally connected to the core shell, a stirring disc arranged on the fifth transmission gear, and a stirring rod fixedly connected to the stirring disc, the twelve-hour wheel is meshed with the second transmission gear, the third transmission gear is meshed with the twelve-hour wheel, the fourth transmission gear is meshed with the fifth transmission gear, the stirring disc can be driven to rotate by rotation of the fifth transmission gear, and the stirring rod is used for stirring the calendar disc to rotate.

Through adopting above-mentioned technical scheme, the rotation of second drive gear drives twelve hour wheel and rotates, and the rotation of twelve hour wheel drives third drive gear and rotates, and third drive gear's rotation drives fourth drive gear and rotates, and fourth drive gear's rotation drives fifth drive gear and rotates, and the rotation of fifth drive gear drives the dial rotation, and the rotation of dial drives the dial rotation, and every time the dial rotates the round, the dial is stirred once the calendar dish to the dial, has realized stirring to the calendar dish.

Preferably, the toggle disc is in an eccentric wheel shape, a second limit groove is formed in the fifth transmission gear, a second limit rod is fixedly connected to the toggle disc, the second limit rod is slidably connected to the second limit groove, a pressing rod is rotatably connected to the core shell, an energy storage spring is fixedly connected to the core shell, one end of the pressing rod is attached to the energy storage spring, and the other end of the pressing rod is attached to the toggle disc.

Through adopting above-mentioned technical scheme, stir the dish through the stirring that the decentration set up, stir the dish in the rotation process, the one end in second spacing groove of second gag lever post butt, and stir the rotation of dish and can press the dynamic pressure pole and remove, the removal of depression bar can press the energy storage spring and remove, when stir the dish rotate to just through on the eccentric wheel with centre of a circle distance furthest point, energy storage spring can produce and rebound, energy storage spring's resilience can drive the depression bar and remove, the removal of depression bar can make stir the dish rotate, the second gag lever post can remove the other end to the second spacing groove with very fast speed at this moment, stir the pole also can stir the calendar dish along with stirring the dish and carry out fast rotation, the fast adjustment of date has been realized in a very short time.

Preferably, the second transmission assembly comprises a second adjusting wheel rotatably connected to the core shell, a third adjusting wheel coaxially and fixedly connected to the second adjusting wheel, a fourth adjusting wheel rotatably connected to the core shell, a fifth adjusting wheel rotatably connected to the core shell, a sixth adjusting wheel rotatably connected to the core shell, a seventh adjusting wheel coaxially and fixedly connected to the sixth adjusting wheel, the seventh adjusting wheel is meshed with the second transmission gear, the sixth adjusting wheel is meshed with the fifth adjusting wheel, the fifth adjusting wheel is meshed with the fourth adjusting wheel, the fourth adjusting wheel is meshed with the third adjusting wheel, and the second adjusting wheel is meshed with the first adjusting wheel.

Through adopting above-mentioned technical scheme, the rotation of first regulating wheel drives the second regulating wheel and rotates, and the rotation of second regulating wheel drives the third regulating wheel and rotates, and the rotation of third regulating wheel drives the fourth regulating wheel and rotates, and the rotation of fourth regulating wheel drives the rotation of fifth regulating wheel, and the rotation of fifth regulating wheel drives the rotation of sixth regulating wheel, and the rotation of sixth regulating wheel drives the rotation of seventh regulating wheel, and the rotation of seventh regulating wheel drives the rotation of second drive gear, has realized the drive of second drive gear.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the watch works normally, the rotation of the chuck drives the four star wheels to rotate, so that the adjustment of indicated date is realized, when the watch is adjusted manually, the four star wheels can rotate on the chuck, due to the arrangement of the unidirectional clamp spring, the unidirectional clamp spring can slip on the four star wheels, the rotation of the four star wheels cannot be influenced, the rotation of the four star wheels cannot be transmitted to an original working assembly, only the adjustment of date can be carried out, and the date indicated by the calendar disc is corrected under the condition that the normal work of the watch is not influenced;

2. by means of the arrangement of the meter handle and the limiting component, a user can conveniently adjust the position of the rotating shaft, stabilize the adjusted position of the rotating shaft and conveniently switch between an adjusting state and a non-adjusting state;

3. through setting up of eccentric wheel formula stirring dish, second spacing groove, second gag lever post, depression bar, energy storage spring, form a jump device when the date is adjusted, the date can be switched in a very short time, and not slowly remove to next digit, the user of being convenient for observes the date.

Drawings

FIG. 1 is an isometric view of an embodiment of the present application, which is primarily representative of an overall structure;

FIG. 2 is a schematic diagram of a first transmission assembly structure according to an embodiment of the present disclosure;

fig. 3 is a schematic diagram mainly showing a four-star wheel structure in the embodiment of the present application;

reference numerals: 1. a core shell; 2. a drive gear; 3. a first transmission gear; 4. a chuck; 5. one-way clamp springs; 6. a four-star wheel; 7. a second transmission gear; 8. a calendar disc; 9. a first transmission assembly; 91. a twelve hour wheel; 92. a third transmission gear; 93. a fourth transmission gear; 94. a fifth transmission gear; 95. a toggle plate; 96. a toggle rod; 10. a first adjustment wheel; 20. a control assembly; 201. a rotating shaft; 202. rotating the gear; 30. a second transmission assembly; 301. a second adjustment wheel; 302. a third adjustment wheel; 303. a fourth adjustment wheel; 304. a fifth adjustment wheel; 305. a sixth adjustment wheel; 306. a seventh adjustment wheel; 40. a limit component; 401. a first limiting plate; 402. a first stop lever; 403. a second limiting plate; 404. a third limiting plate; 405. a limit spring; 50. a first limit groove; 60. a meter handle; 70. the second limit groove; 80. a second limit rod; 90. a compression bar; 100. and an energy storage spring.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-3.

The embodiment of the application discloses a clock movement.

As shown in fig. 1, fig. 2 and fig. 3, a clock movement includes a core shell 1 and a driving gear 2, the driving gear 2 is rotationally connected on the core shell 1, the driving gear 2 is driven by a spring on the core shell 1 to rotate, a first transmission gear 3 is meshed on the driving gear 2, a chuck 4 is coaxially and fixedly connected above the first transmission gear 3, a unidirectional clamp spring 5 is fixedly clamped above the chuck 4, a four-star wheel 6 is rotationally connected above the chuck 4, the first transmission gear 3 and the four-star wheel 6 are coaxially arranged, the four-star wheel 6 can be attached to the unidirectional clamp spring 5, when the four-star wheel 6 rotates clockwise, the unidirectional clamp spring 5 can be clamped on the four-star wheel 6, and when the four-star wheel 6 rotates anticlockwise, the unidirectional clamp spring 5 can slip on the four-star wheel 6 without affecting the normal rotation of the four-star wheel 6. When the device is used, the driving gear 2 rotates, the first transmission gear 3 is driven to rotate by the rotation of the driving gear 2, the chuck 4 is driven to rotate by the rotation of the first transmission gear 3, the unidirectional clamping spring 5 is clamped on the four star wheel 6 by the rotation of the chuck 4, the four star wheel 6 is driven to rotate anticlockwise together, and the contact position of the four star wheel 6 and the unidirectional clamping spring 5 is the contact position of the four star wheel 6 and the unidirectional clamping spring 5 when the four star wheel 6 rotates clockwise at the moment, and the four star wheel 6 is clamped on the unidirectional clamping spring 5.

As shown in fig. 1, fig. 2 and fig. 3, the second transmission gear 7 is fixedly connected above the four star wheel 6, the calendar disc 8 is rotatably connected on the core shell 1, the first transmission assembly 9 for transmitting the rotation of the second transmission gear 7 to the calendar disc 8 is arranged on the core shell 1, the first transmission assembly 9 comprises twelve hours wheel 91, a third transmission gear 92, a fourth transmission gear 93, a fifth transmission gear 94, a poking disc 95 and a poking rod 96, the twelve hours wheel 91 is coaxially and fixedly connected above the driving gear 2, the twelve hours wheel 91 is meshed with the second transmission gear 7, the third transmission gear 92 is meshed with the twelve hours wheel 91, the fourth transmission is coaxially and fixedly connected below the third transmission gear 92, the fifth transmission gear 94 is meshed with the fourth transmission gear 93, the poking disc 95 is in an eccentric wheel shape, the poking disc 95 is coaxially and rotatably connected above the fifth transmission gear 94, the poking rod 96 is fixedly connected to one side of the poking disc 95 far away from the fifth transmission gear 94, the poking disc 95 rotates for one time, the poking disc 96 can poking the calendar disc 8 once, the fifth transmission gear 94 is fixedly connected to the second core 95, the second limit groove 70 is fixedly connected to the second limit groove 80, and the limit groove 100 is fixedly connected to the other end of the second limit groove 80 on the core shell 1, and the limit groove 80 is fixedly connected to the limit groove 80. During the use, the rotation of four star gears 6 can drive second drive gear 7 and rotate, the rotation of second drive gear 7 drives twelve hour wheel 91 and rotates, twelve hour wheel 91's rotation drives the rotation of third drive gear 92, the rotation of third drive gear 92 drives the rotation of fourth drive gear 93, the rotation of fourth drive gear 93 drives the rotation of fifth drive gear 94, the rotation of fifth drive gear 94 drives the dial 95 and rotates, the rotation of dial 95 drives the dial 96 and rotates, in the rotation course of dial 95, second gag lever post 80 can the butt at one end of second spacing groove 70, along with dial 95 rotates to the great part of radius on the eccentric wheel, dial 95's rotation can press the depression bar 90 and remove, the removal of depression bar 90 can press the energy storage spring 100 and remove, spring 100 accumulates the energy, when dial 95 rotates to just through on the eccentric wheel with the centre of a circle distance far point, energy storage spring 100 releases the energy and rebound, depression bar 90 presses dial 95 and carries out fast movement, second gag lever 80 can be with the very fast movement to dial 70, the time of day 8 is also fixed at the time of day, the time of day of the dial 95 can be moved to the very fast, the time of day 8 is fixed, the dial 8 is just in the time of day is fixed, the dial 8 is very big, the time is just can be fixed, the day is fixed, and the date is just in time is moved, and is moved, the time is just in the time, and is very high, and can is very high, and has the time, and has high, and is very high, and is can, and is very high.

As shown in fig. 1, fig. 2 and fig. 3, a first adjusting wheel 10 is rotatably connected to a core shell 1, a second transmission assembly 30 for transmitting the rotation of the first adjusting wheel 10 to a second transmission gear 7 is arranged on the core shell 1, a control assembly 20 for controlling the rotation of the first adjusting wheel 10 is further arranged on the core shell 1, the control assembly 20 comprises a rotating shaft 201 and a rotating gear 202, the rotating shaft 201 is rotatably connected to the core shell 1, the rotating shaft 201 can slide on the core shell 1, a limiting assembly 40 for limiting the rotating shaft 201 is arranged on the core shell 1, the rotating gear 202 is fixedly connected to one end, close to the first adjusting wheel 10, of the rotating shaft 201, the rotating gear 202 can be meshed with the first adjusting wheel 10, one end, far away from the first adjusting wheel 10, of the rotating shaft 201 is fixedly connected with a handle 60, and the handle 60 is convenient for a user to rotate and push the rotating shaft 201 to use. When the device is used, a user can push the rotating shaft 201, the rotating gear 202 on the rotating shaft 201 is meshed with the first adjusting wheel 10, the limiting component 40 limits the rotating shaft 201 at the moment, then the meter handle 60 is rotated, the rotating shaft 201 is driven to rotate by the rotation of the meter handle 60, the rotating gear 202 is driven to rotate by the rotation of the rotating shaft 201, the first adjusting wheel 10 is driven to rotate by the rotation of the rotating gear 202, the second transmission gear 7 is driven to rotate by the rotation of the first adjusting wheel 10 through the second transmission component 30, when the second transmission gear 7 rotates clockwise, the unidirectional clamp spring 5 is clamped on the four star wheel 6, manual date adjustment cannot be carried out, when the second transmission gear 7 rotates anticlockwise, the unidirectional clamp spring 5 slips on the four star wheel 6, and manual date adjustment is achieved.

As shown in fig. 1, 2 and 3, the limiting assembly 40 includes a first limiting plate 401, a first limiting rod 402, a second limiting plate 403, a third limiting plate 404 and a limiting spring 405, where the first limiting plate 401 is rotationally connected to the core shell 1, one end of the first limiting plate 401 is clamped and fixed to the rotating shaft 201, the first limiting rod 402 is integrally formed on the first limiting plate 401, the second limiting plate 403 is rotationally connected to the core shell 1, a first limiting groove 50 is formed in the second limiting plate 403, the first limiting rod 402 slides in the first limiting groove 50, the third limiting plate 404 is coaxially and rotationally connected to the lower portion of the second limiting plate 403, one end of the third limiting plate 404 close to the rotating shaft 201 is clamped and fixed to the rotating shaft 201, the limiting spring 405 is clamped and fixed to the core shell 1, one end of the third limiting plate 404 is abutted to the limiting spring 405, and the other end of the third limiting plate 404 is abutted to the first limiting rod 402. When the rotary shaft 201 is pulled, the first limiting plate 401 and the third limiting plate 404 are driven to move simultaneously by the movement of the rotary shaft 201, the third limiting plate 404 is required to move, the first limiting shaft moves in the first limiting groove 50, the first limiting groove 50 limits the first limiting shaft after the first limiting shaft moves, meanwhile, the limiting spring 405 presses the third limiting rod to limit the first limiting shaft, a linkage limiting structure is formed, and limiting after the rotary shaft 201 moves is achieved.

As shown in fig. 1, 2 and 3, the second transmission assembly 30 comprises a second adjusting wheel 301, a third adjusting wheel 302, a fourth adjusting wheel 303, a fifth adjusting wheel 304, a sixth adjusting wheel 305 and a seventh adjusting wheel 306, wherein the second adjusting wheel 301 is rotatably connected to the core shell 1 and is meshed with the first adjusting wheel 10, the third adjusting wheel 302 is coaxially and fixedly connected above the second adjusting wheel 301 and is meshed with the fourth adjusting wheel 303, the fourth adjusting wheel 303 is rotatably connected to the core shell 1 and is meshed with the fifth adjusting wheel 304, the fifth adjusting wheel 304 is rotatably connected to the core shell 1 and is meshed with the sixth adjusting wheel 305, and the seventh adjusting wheel 306 is coaxially and fixedly connected to the sixth adjusting wheel 305 and is meshed with the second transmission gear 7. In use, the first adjusting wheel 10 rotates, the rotation of the first adjusting wheel 10 drives the second adjusting wheel 301 to rotate, the rotation of the second adjusting wheel 301 drives the third adjusting wheel 302 to rotate, the rotation of the third adjusting wheel 302 drives the fourth adjusting wheel 303 to rotate, the rotation of the fourth adjusting wheel 303 drives the fifth adjusting wheel 304 to rotate, the rotation of the fifth adjusting wheel 304 drives the sixth adjusting wheel 305 to rotate, the rotation of the sixth adjusting wheel 305 drives the seventh adjusting wheel 306 to rotate, the rotation of the seventh adjusting wheel 306 drives the second transmission gear 7 to rotate, and the rotation of the first adjusting wheel 10 is transmitted to the second transmission gear 7.

The implementation principle of the clock movement of the embodiment of the application is as follows: when the date adjustment is needed in practical use, the rotating shaft 201 is pulled, the rotating gear 202 on the rotating shaft 201 is inserted into the first adjusting wheel 10, the first adjusting wheel 10 is meshed with the rotating gear 202, then the dial grip 60 is rotated to adjust the date, and after the adjustment is completed, the rotating shaft 201 is pulled again, so that the rotating gear 202 on the rotating shaft 201 is separated from the first adjusting wheel 10, and the manual date adjustment is completed.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims

1. A timepiece movement, characterized in that: including core shell (1) and driving gear (2), driving gear (2) rotate and connect on core shell (1), the meshing has first drive gear (3) on driving gear (2), coaxial fixedly connected with chuck (4) on first drive gear (3), fixedly connected with one-way jump ring (5) on chuck (4), coaxial rotation is connected with four star gears (6) on first drive gear (3), one-way jump ring (5) are used for one-way joint four star gears (6), fixedly connected with second drive gear (7) on four star gears (6), rotate on core shell (1) and be connected with calendar disk (8), be provided with on core shell (1) and be used for with the rotation transmission of second drive gear (7) for first drive assembly (9) of calendar disk (8), rotate on core shell (1) and be connected with first regulating wheel (10), be provided with on core shell (1) and be used for controlling first regulating wheel (10) rotate control assembly core (20), it is used for still transmitting second drive assembly (10) to rotate on first regulating wheel (1).

2. A timepiece movement according to claim 1, wherein: the control assembly (20) comprises a rotating shaft (201) rotatably connected to the core shell (1), and a rotating gear (202) fixedly connected to the rotating shaft (201), wherein the rotating gear (202) is meshed with the first adjusting wheel (10).

3. A timepiece movement according to claim 2, wherein: the rotating shaft (201) can also slide on the core shell (1), and a limiting assembly (40) for limiting the rotating shaft (201) is arranged on the core shell (1).

4. A timepiece movement according to claim 3, wherein: the limiting assembly (40) comprises a first limiting plate (401) which is rotationally connected to the core shell (1), a first limiting rod (402) which is fixedly connected to the first limiting plate (401), a second limiting plate (403) which is rotationally connected to the core shell (1), a third limiting plate (404) which is coaxially rotationally connected to the second limiting plate (403), and a limiting spring (405) which is fixedly connected to the core shell (1), wherein one end of the first limiting plate (401) is fixedly connected to the rotating shaft (201), a first limiting groove (50) is formed in the second limiting plate (403), the first limiting rod (402) is connected to the first limiting groove (50) in a sliding mode, one end of the third limiting plate (404) is fixedly connected to the rotating shaft (201), one side of the third limiting plate (404) is attached to the limiting spring (405), and the other side of the third limiting plate (404) is attached to the first limiting rod (402).

5. A timepiece movement according to claim 4, wherein: one end of the rotating shaft (201) far away from the rotating gear (202) is fixedly connected with a meter handle (60).

6. A timepiece movement according to claim 1, wherein: the first transmission assembly (9) comprises a twelve-hour wheel (91) which is coaxially and fixedly connected to the driving gear (2), a third transmission gear (92) which is rotatably connected to the core shell (1), a fourth transmission gear (93) which is coaxially and fixedly connected to the third transmission gear (92), a fifth transmission gear (94) which is rotatably connected to the core shell (1), a poking disc (95) which is arranged on the fifth transmission gear (94), a poking rod (96) which is fixedly connected to the poking disc (95), the twelve-hour wheel (91) is meshed with the second transmission gear (7), the third transmission gear (92) is meshed with the twelve-hour wheel (91), the fourth transmission gear (93) is meshed with the fifth transmission gear (94), and the poking disc (95) can be driven to rotate by rotation of the fifth transmission gear (94), and the poking rod (96) is used for poking the calendar disc (8).

7. A timepiece movement according to claim 6, wherein: the stirring disc (95) is in an eccentric wheel shape, a second limit groove (70) is formed in the fifth transmission gear (94), a second limit rod (80) is fixedly connected to the stirring disc (95), the second limit rod (80) is slidably connected to the second limit groove (70), a pressing rod (90) is rotationally connected to the core shell (1), an energy storage spring (100) is fixedly connected to the core shell (1), one end of the pressing rod (90) is attached to the energy storage spring (100), and the other end of the pressing rod (90) is attached to the stirring disc (95).

8. A timepiece movement according to claim 1, wherein: the second transmission assembly (30) comprises a second adjusting wheel (301) rotatably connected to the core shell (1), a third adjusting wheel (302) coaxially and fixedly connected to the second adjusting wheel (301), a fourth adjusting wheel (303) rotatably connected to the core shell (1), a fifth adjusting wheel (304) rotatably connected to the core shell (1), a sixth adjusting wheel (305) rotatably connected to the core shell (1), a seventh adjusting wheel (306) coaxially and fixedly connected to the sixth adjusting wheel (305), the seventh adjusting wheel (306) is meshed with the second transmission gear (7), the sixth adjusting wheel (305) is meshed with the fifth adjusting wheel (304), the fifth adjusting wheel (304) is meshed with the fourth adjusting wheel (303), the fourth adjusting wheel (303) is meshed with the third adjusting wheel (302), and the second adjusting wheel (301) is meshed with the first adjusting wheel (10).