CN108732905B - Design method of mechanical watch movement capable of changing tourbillon position and watch movement - Google Patents

Abstract

The invention discloses a mechanical watch movement capable of changing the position of a tourbillon, which comprises a movement driving system, a transmission gear train, a tourbillon gear train, a display system, a dial needle system, a winding system, a whole layout design and a specific design of a clamping plate; the tourbillon system and the prime system are symmetrically designed at the 12-point position and the 6-point position of the watch machine, and the tourbillon system and the prime system can be interchangeably installed between the 12-point position or the 6-point position of the watch machine; the tourbillon mechanical watch movement motive system supplements energy for the tourbillon system through a main transmission system. The beneficial effects are that: because the tourbillon train and the prime train are symmetrically designed at 12 points and 6 points of the watch machine, the tourbillon train and the prime train can be interchanged in position to realize interchange of tourbillon positions, and two tourbillon movements at different positions are assembled by parts of one tourbillon watch machine; in addition, other parts are adaptively adjusted according to the tourbillon position, so that the normal timing of the watch is ensured; the design concept is novel, the added value of the product is improved, and the economic benefit of enterprises is increased.

Description

Design method of mechanical watch movement capable of changing tourbillon position and watch movement

Technical Field

The invention relates to a watch component, in particular to a design method of a mechanical watch movement capable of changing the position of a tourbillon and the watch movement.

Background

According to investigation, in the tourbillon mechanical watch, the tourbillon mechanical watch with the tourbillon arranged at 12 points or 6 points is favored by consumers. The existing tourbillon mechanical watch movement cannot change the position after the tourbillon is set at one position of the watch movement. Therefore, in order to meet the market demand, the watch manufacturer needs to design and produce tourbillon mechanical watch movements at two positions, and the design and manufacture cost is high.

Disclosure of Invention

The invention aims to solve the technical problem of providing a design method of a mechanical watch movement with reasonable structure and low cost and capable of changing the tourbillon position and the watch movement manufactured by the method.

The technical scheme adopted by the invention is as follows: a design method of mechanical watch movement capable of changing tourbillon position includes whole layout design of movement motive system, transmission gear train, tourbillon gear train, display system, dial needle system and winding system and specific design of clamping plate; the tourbillon system and the driving system are symmetrically designed at the 12-point position and the 6-point position of the watch machine, and can be interchangeably installed between the 12-point position or the 6-point position of the watch machine; the tourbillon mechanical watch movement motive system supplements energy for the tourbillon system through a main transmission system.

The transmission gear train comprises a center two-wheel and three wheels, wherein the center two-wheel is designed to be connected with a prime power system at the center of the watch machine, and the three wheels are designed to be connected with the center two-wheel and the tourbillon system between the center two-wheel and the tourbillon system so as to complete energy transmission;

the clamping plate comprises an upper clamping plate, a lower clamping plate and a strip clamping plate which are used as mounting carriers of a movement driving system, a main transmission system, a tourbillon system, a display system, a needle pulling system and a strip system;

the 12-point position and the 6-point position of the upper clamping plate are symmetrically provided with accommodating holes for accommodating the tourbillon system and the prime train;

the strip clamp plate is used as an upper supporting carrier of the driving system and is arranged on the upper clamp plate;

the upper clamping plate is used as an upper supporting carrier of the central two wheels;

the second wheel piece in the tourbillon train is used as an upper supporting carrier of three wheels;

the lower clamping plate is used as a lower support carrier of a prime power system, a main transmission system and a tourbillon system;

the display system is arranged on the center two wheels;

the needle pulling system is designed on the upper clamping plate and is connected with the display system to realize the function of moving the movement;

the winding system is designed on the lower clamping plate and is connected with the driving system to realize the winding function of the movement.

When the positions of two mounting screws of the upper clamping plate are C1 and C2, and the driving system is mounted at the 12 point position or the 6 point position of the watch machine, the upper clamping plate can be correspondingly mounted at the C1 and C2 positions corresponding to the 12 point position of the upper clamping plate or at the C1 and C2 positions corresponding to the 6 point position.

In order to further solve the problem that the tourbillon system and the prime power system can be exchanged between the 12-point position and the 6-point position of the watch machine, the preferable design scheme of the upper clamping plate is as follows: the 12-point position and the 6-point position of the upper clamping plate are symmetrically provided with a top frame hole with the same size;

the tourbillon hole is used as a containing hole of a tourbillon system and a containing hole of a driving system;

and the 12-point position and the 6-point position of the upper clamping plate are respectively provided with a C1 position and a C2 position corresponding to the assembly clamping plate.

In order to further solve the problem that the tourbillon system and the prime power system can be exchanged between the 12-point position and the 6-point position of the watch machine, the preferable design scheme of the lower clamping plate is as follows:

the 12-point position of the lower clamping plate is designed to be the installation position of the tourbillon train, and the symmetrical 6-point position is designed to be the installation position of the driving system;

the lower clamping plate can be respectively arranged with the upper clamping plate in a first position and a second position;

the first position of the lower clamping plate is that the tourbillon wheel system is at a 12-point position and the driving system is at a 6-point position;

the lower clamping plate rotates 180 degrees from the first position to be a second position of the lower clamping plate;

the second position of the lower clamping plate is arranged in a 12-point position of the driving system, and the tourbillon is arranged in a 6-point position.

The preferred design scheme for further solving the problem that the lower clamping plate can be respectively arranged with the upper clamping plate at the first position and the second position is as follows:

the upper clamping plate and the lower clamping plate are respectively provided with a corresponding installation position;

the corresponding installation positions of the upper clamping plate and the lower clamping plate are symmetrical and are arranged on a straight line passing through the center of the clamping plate, and the installation positions can be arranged into one group or a plurality of groups according to the size of the movement and the fixing firmness degree of the upper clamping plate and the lower clamping plate;

the lower clamp plate can be mounted with the upper clamp plate in a first position and a second position, respectively.

In order to further solve the lower plate can be installed with the upper plate plywood with first position and second position respectively, the realization of the function of winding, the preferred design scheme of winding system on the lower plate is:

the lower clamping plate is arranged at a first position and an upper clamping plate, the 12-point position is a tourbillon system and the 6-point position is a prime system when seen from the surface of the watch face of the movement, and the winding system is designed into a fourth quadrant when the lower clamping plate is positioned at the first position;

the lower clamping plate is arranged at a second position and the upper clamping plate, the 12-point position is a prime power system and the 6-point position is a tourbillon system when seen from the surface of the watch face of the movement, and the winding system is designed into a first quadrant when the lower clamping plate is positioned at the second position;

the second position of the lower clamping plate is the first position of the lower clamping plate and rotates 180 degrees, the first position of the lower clamping plate is the initial design position of the lower clamping plate, piles and grooves of a winding system are symmetrically designed and assembled in the third quadrant and the fourth quadrant of the lower clamping plate, and the lower clamping plate can be installed with the upper clamping plate at the first position and the second position respectively to achieve the winding function.

The watch movement manufactured by the design method of the mechanical watch movement capable of changing the tourbillon position comprises a movement driving system, a tourbillon train and a clamping plate; the device is characterized in that the clamping plate is an installation carrier of the movement and comprises an upper clamping plate, a lower clamping plate and a bar clamping plate; the 12-point position and the symmetrical 6-point position of the upper clamping plate are provided with storage holes for accommodating the tourbillon gear train and the driving system, and the tourbillon gear train and the driving system can exchange mounting positions between the storage holes of the 12-point position and the 6-point position; the lower clamping plate is a lower support carrier of a driving system and a tourbillon train, and the driving system and the tourbillon train on the lower clamping plate correspond to 12 points and 6 points of storage holes in the upper clamping plate; the strip clamp plate is arranged on the upper clamp plate dial plate noodle clamp plate groove, and the lower clamp plate is assembled with the upper clamp plate rear cover surface plate.

The 12-point position and the 6-point position of the upper clamping plate are respectively provided with a strip clamping plate groove matched with the strip clamping plate, the strip clamping plate is an upper supporting carrier of a driving system, and the screw is combined with the lower clamping plate into a whole through the strip clamping plate and the upper clamping plate.

The beneficial effects of the invention are as follows: the tourbillon wheel system and the prime power system are symmetrically designed at the 12-point position and the 6-point position of the watch machine, and the mounting holes formed on the upper clamping plate are the same in size, so that the tourbillon wheel system and the prime power system can be interchanged in position to realize the interchange of tourbillon positions, namely, the assembly of parts of one tourbillon watch machine into two tourbillon mechanical watch movements at different positions is realized; in addition, other parts are adaptively adjusted according to the installation of the tourbillon, so that the normal timing of the watch is ensured; the design method has novel conception, improves the added value of products, increases the economic benefit of enterprises, and has outstanding substantive characteristics and remarkable progress compared with the prior art.

Drawings

FIG. 1 is a top plan view of the present invention;

FIG. 2 is a lower plate design of the present invention;

FIG. 3 is a schematic diagram of a winding system of the present invention;

FIG. 4 is an exploded view of an embodiment of the movement of the tourbillon of the present invention when mounted at a 12 point location;

FIG. 5 is an exploded view of an embodiment of the movement of the tourbillon of the present invention when mounted at a 6-point location;

FIG. 6 is a diagram of an embodiment of the dial face of the movement of the tourbillon of the present invention when mounted at 12 points;

FIG. 7 is a view of the rear cover of the engine when the tourbillon of the present invention is mounted at 12 points;

FIG. 8 is a diagram of an embodiment of the dial face of the movement of the tourbillon of the present invention when mounted at a 6-point location;

fig. 9 is a view of the rear cover of the tourbillon of the present invention when mounted at 6 points.

In the figure:

1. the driving component 2, the center two wheels 3, the three wheels 4 and the tourbillon

5. Upper clamping plate 6, lower clamping plate 7, bar clamping plate 8, second wheel piece

9. Display system 10, setting system 11, winding system.

Detailed Description

The invention is described in further detail below with reference to the attached drawings and detailed description:

as shown in fig. 1 to 9, the design method of the mechanical watch movement capable of changing the tourbillon position of the present invention includes using an eccentric tourbillon center time with high ornamental value and a minute hand to display the mechanical watch movement as a design object, using the conventional tourbillon mechanical watch movement driving system to supplement energy to the tourbillon system through a main driving system as a design basis, and using the position of the tourbillon system as a design reference, wherein the position can be assembled at the 12-point position and the 6-point position of the movement, and the design method includes: the upper, lower and strip clamping plates are used as mounting carriers of the machine core, and the whole layout design and the specific design of the clamping plates are carried out on a machine core driving system, a tourbillon system, a display system, a needle pulling system and a strip winding system.

The specific design is as follows:

design of the movement transmission route:

the power source of the movement is a motive power system taking a spring as a power source;

the main transmission route of the movement is as follows: the driving system is a transmission gear train and a tourbillon gear train;

the drive train of the movement comprises: center two-wheel, three-wheel;

the display system route of the movement is as follows: a center two-wheel display system;

the needle shifting transmission route of the movement is as follows: a needle pulling system-a display system;

the winding transmission route of the movement is as follows: winding system-prime system.

Design of core clamping plate:

the splint comprises: the upper clamping plate, the lower clamping plate and the strip clamping plate are used as mounting carriers of a movement driving system, a tourbillon system, a display system, a needle pulling system and a strip winding system.

And (3) designing the overall layout of the movement:

the tourbillon train and the prime train are symmetrically designed at 12-point positions and 6-point positions of the watch machine;

the center two-wheel design is connected with a prime power system at the center of the watch machine;

the three-wheel design is characterized in that the center two-wheel and the tourbillon system are connected between the center two-wheel and the tourbillon system to complete energy transmission;

the upper clamping plate is used as a holding carrier of the tourbillon train and the driving system, and a 12-point position and a symmetrical 6-point position of the upper clamping plate are respectively provided with a holding hole for holding the tourbillon train and the driving system;

the strip clamp plate is used as an upper support carrier of a prime system;

the strip clamp plate is arranged on the upper clamp plate dial noodle clamp plate groove;

the upper clamping plate is used as an upper supporting carrier of the central two wheels;

the second wheel piece in the tourbillon train is used as an upper supporting carrier of three wheels;

the lower clamping plate is used as a lower support carrier of a driving system and a tourbillon system;

the lower clamping plate is assembled with the upper clamping plate rear cover surface plywood;

the display system is arranged on the center two wheels;

the needle pulling system is designed on the upper clamping plate and is connected with the display system to realize the time display and the function of the movement needle pulling;

the winding system is designed on the lower clamping plate and is connected with the driving system to realize the winding function of the movement.

To sum up the design, in order to realize the interchange assembly of the tourbillon train and the driving system at the 12-point position and the 6-point position of the watch machine, the specific design conditions of the upper clamp plate, the lower clamp plate and the strip clamp plate are as follows:

in order to realize the interchange assembly of the tourbillon train and the prime train at the 12-point position and the 6-point position of the watch machine, the upper clamping plate needs to meet the design conditions as follows:

the 12-point position and the 6-point position of the upper clamping plate are symmetrically provided with a top frame hole with the same size;

the tourbillon frame hole is used as a holding hole of a tourbillon system and a holding hole of a driving system, and the tourbillon system and the driving system can be installed at 12 points and 6 points of the watch machine in an interchangeable mode.

In order to realize the interchange assembly of the tourbillon train and the prime train at the 12-point position and the 6-point position of the watch machine, the upper clamping plate and the strip clamping plate are required to jointly meet the design conditions as follows:

two positions of the mounting screws of the upper clamping plate are C1 and C2, and the position of the 12 point of the upper clamping plate and the position of the 6 point of the upper clamping plate are respectively designed to be corresponding to the positions C1 and C2 of the assembling clamping plate.

Therefore, the prime system is arranged at the 12 point position or the 6 point position of the watch machine, the bar clamp plate can be correspondingly arranged at the C1 and C2 positions corresponding to the 12 point position or the C1 and C2 positions corresponding to the 6 point position of the upper clamp plate, and the bar clamp plate can be interchangeably arranged at the 12 point position and the 6 point position of the watch machine along with the prime system.

In order to realize the interchange assembly of the tourbillon train and the prime train at the 12-point position and the 6-point position of the watch machine, the upper clamping plate and the lower clamping plate are required to jointly meet the design conditions as follows:

the 12-point position of the lower clamping plate is designed to be a mounting position of the tourbillon train, the symmetrical 6-point position is designed to be a mounting position of the prime power train, and the lower clamping plate can be mounted with the upper clamping plate at a first position and a second position respectively;

the first position of the lower clamping plate is that the tourbillon wheel system is at a 12-point position and the driving system is at a 6-point position;

the lower clamping plate rotates 180 degrees by taking the first position shaft as a second position of the lower clamping plate;

the second position of the lower clamping plate is that the driving system is at a 12-point position, and the tourbillon is at a 6-point position;

the upper clamping plate and the lower clamping plate are respectively provided with a corresponding installation position;

the opposite installation positions arranged on the upper clamping plate and the lower clamping plate are symmetrical and on a straight line passing through the center of the clamping plate, and the installation positions can be arranged into one group or two groups or multiple groups according to the size of the movement and the fixing firmness degree of the upper clamping plate and the lower clamping plate;

in this way, the lower clamp plate can be mounted with the upper clamp plate by the screw plywood in the first position and the second position respectively, and the positions of the tourbillon train and the driving system can be mounted interchangeably.

In order to realize the interchange assembly of the tourbillon train and the prime train at the 12-point position and the 6-point position of the watch machine, the winding system is designed on the lower clamping plate, and the lower clamping plate also needs to meet the design conditions as follows:

the lower clamping plate is arranged at a first position and an upper clamping plate, the 12-point position is a tourbillon system and the 6-point position is a prime system when seen from the surface of the watch face of the movement, and the winding system is designed into a fourth quadrant when the lower clamping plate is positioned at the first position;

the lower clamping plate is arranged at a second position and the upper clamping plate, the 12-point position is a prime power system and the 6-point position is a tourbillon system when seen from the surface of the watch face of the movement, and the winding system is designed into a first quadrant when the lower clamping plate is positioned at the second position;

the second position of the lower clamping plate is the first position of the lower clamping plate and rotates 180 degrees, the first position of the lower clamping plate is the initial design position of the lower clamping plate, piles and grooves of a winding system are symmetrically designed and assembled in the third quadrant and the fourth quadrant of the lower clamping plate, and the lower clamping plate can be installed with the upper clamping plate at the first position and the second position respectively to achieve the winding function.

As shown in fig. 1 to 9, a mechanical watch movement with changeable tourbillon position designed according to the design method of the mechanical watch movement with changeable tourbillon position of the present invention includes a design object of displaying the mechanical watch movement with a central time and minute hand of an eccentric tourbillon with high ornamental value, a design basis of supplementing energy to a tourbillon system by a conventional tourbillon mechanical watch movement driving system through a transmission system, and a design basis of enabling the tourbillon position to be assembled at a 12-point position and a 6-point position of the movement, including: the upper, lower and strip clamping plates are used as mounting carriers of the machine core, and the whole layout design and the specific design of the clamping plates are carried out on a machine core driving system, a tourbillon system, a display system, a needle pulling system and a strip winding system. The mechanical watch movement capable of changing the tourbillon position comprises: a driving system, a transmission system, a tourbillon system, a display system, a needle pulling system and a winding system;

the movement power source is: a motive assembly 1;

the movement drive train includes: a center two wheel 2 and a three wheel 3;

the movement clamping plate comprises an upper clamping plate 5, a lower clamping plate 6 and a strip clamping plate 7;

the lower clamping plate 6 is a lower supporting clamping plate of the driving assembly 1, the two-wheel part 2, the three-wheel part 3 and the tourbillon 4;

the 6-point position of the lower clamping plate 6 is provided with a strip box wheel 1, the central position is provided with a central two-wheel 2, the 12-point position is provided with a tourbillon 4, and a three-wheel 3 is arranged between the central two-wheel 2 and the tourbillon 4;

the strip box wheel 1 is meshed with the central two wheels 2, the central two wheels 2 are meshed with the three wheels 3, and the three wheels 3 are meshed with the tourbillon 4, so that energy transmission is realized;

the 12-point position and the 6-point position of the upper clamping plate 6 are symmetrically provided with a top frame hole with the same diameter;

the tourbillon hole is not only a containing hole of the tourbillon 4 but also a containing hole of the driving component 1;

the upper clamping plate 5 is used as an upper supporting clamping plate of the center two wheels 2;

the second wheel piece 8 in the tourbillon 4 is used as an upper supporting splint for three wheels;

the display system 9 is assembled on the central two wheels 2;

the needle pulling system 10 is assembled on the upper clamping plate 5 and is connected with the display system 9 to realize time display and movement needle pulling functions;

the winding system 11 is assembled on the lower clamping plate 6 and is connected with the driving system 1 to realize the winding function of the movement.

Two upper plywood mounting positions C1 and C2 are arranged on the strip plywood 7;

the positions of C1 and C2 are correspondingly arranged at the positions of 6 points of the 12 points on the upper clamping plate 5;

when the driving assembly 1 is arranged at the 12-point position, the C1 and C2 positions of the strip clamp plate 7 correspond to the C1 and C2 positions of the 12-point position of the upper clamp plate 5, and the driving assembly is arranged by using a screw plywood;

when the driving assembly 1 is arranged at the 6-point position, the C1 and C2 positions of the strip clamp plate 7 correspond to the C1 'and C2' positions of the 6-point position of the upper clamp plate 5, and the driving assembly is arranged by using a screw plywood;

the tourbillon is assembled at the 12 points of the lower clamping plate 6, and the driving component 1 is assembled at the 6 points;

the upper clamping plate 5 and the lower clamping plate 6 are respectively provided with a corresponding installation position;

the opposite installation positions on the upper clamping plate 5 and the lower clamping plate 6 are symmetrical and on a straight line passing through the center of the clamping plates, the installation positions can be set into one group or two groups or multiple groups according to the size of the movement and the fixing firmness degree of the upper clamping plate and the lower clamping plate, and in the embodiment, 2 groups are arranged at the upper and lower corresponding installation positions;

therefore, the tourbillon 4 is arranged at the 12-point position, the driving assembly 1 is arranged at the 6-point position, the lower clamping plate and the upper clamping plate can be mounted together through the screw plywood, the tourbillon 4 is arranged at the 6-point position, the driving assembly 1 is arranged at the 12-point position, the lower clamping plate rotates 180 degrees, and the lower clamping plate and the upper clamping plate can be mounted together through the screw plywood;

piles and grooves for assembling the upper bar system 11 are symmetrically arranged in the third quadrant and the fourth quadrant of the lower clamping plate 6;

the fourth quadrant of the lower clamping plate 6 is provided with piles and grooves for assembling a winding system, after the winding system 11 is assembled by screws, the tourbillon 4 is arranged at the 12-point position, the driving assembly 1 is arranged at the 6-point position, the winding function can be realized, and the mechanical watch movement product of the tourbillon 4 at the 12-point position is completed.

The third quadrant of the lower clamping plate 6 is provided with a pile and a groove for assembling the winding system 11, after the winding system 11 is assembled by using screws, the winding system 11 is positioned in the first quadrant of the lower clamping plate when the lower clamping plate 6 rotates 180 degrees, and therefore, the tourbillon 4 is arranged at the 6-point position, the driving assembly 1 is arranged at the 12-point position, the winding function can be realized, and the mechanical watch movement of the tourbillon 4 at the 6-point position is completed.

In summary, the mechanical watch movement with the tourbillon position capable of being changed, which is designed according to the design method of the mechanical watch movement with the tourbillon position capable of being changed, can realize the tourbillon mechanical watch movement with the tourbillon arranged at the 12-point position of the watch machine and the tourbillon arranged at the 6-point position of the watch machine.

It should be noted that the scope of the present invention is not limited to the above-described specific embodiments. The basic design method according to the invention is not to be understood as limiting the claims of the invention in any way, as long as the person skilled in the art is able to envisage embodiments without the inventive effort, which fall within the scope of protection of the invention.

Claims (7)

1. A design method of mechanical watch movement capable of changing tourbillon position includes whole layout design of movement motive system, transmission gear train, tourbillon gear train, display system, dial needle system, winding system and specific design of clamping plate; the device is characterized in that the tourbillon train and the movement driving system are symmetrically designed at the 12-point position and the 6-point position of the watch machine, and the tourbillon train and the movement driving system can be interchangeably installed between the 12-point position and the 6-point position of the watch machine;

the clamping plate comprises an upper clamping plate and a lower clamping plate, wherein the 12-point position and the 6-point position of the upper clamping plate are symmetrically provided with accommodating holes for accommodating the tourbillon train and the movement driving system, and the accommodating holes are used for accommodating the tourbillon train and the movement driving system;

the lower clamping plate is respectively arranged with the upper clamping plate in a first position and a second position;

the first position of the lower clamping plate is that the tourbillon train is at a 12-point position, and the movement driving system is at a 6-point position;

the lower clamping plate rotates 180 degrees from the first position to be a second position of the lower clamping plate;

the second position of the lower clamping plate is that the movement driving system is at a 12-point position, and the tourbillon is at a 6-point position;

the tourbillon mechanical watch movement motive system supplements energy for the tourbillon system through a transmission gear train.

2. The design method of the mechanical watch movement with the tourbillon position changeable according to claim 1, wherein the transmission gear train comprises a center two-wheel and a three-wheel, the center two-wheel is designed at the center of the watch movement and is connected with a movement driving system, and the three-wheel is designed between the center two-wheel and the tourbillon system and is connected with the center two-wheel and the tourbillon system to complete energy transmission;

the clamping plate also comprises a clamping plate, wherein the clamping plate is an installation carrier of a movement driving system, a transmission gear train, a tourbillon gear train, a display system, a needle pulling system and a winding system;

the strip clamp plate is used as an upper support carrier of a movement driving system and is arranged on the upper clamp plate;

the upper clamping plate is used as an upper supporting carrier of the central two wheels;

the second wheel piece in the tourbillon train is used as an upper supporting carrier of three wheels;

the lower clamping plate is used as a lower support carrier of a movement driving system, a transmission gear train and a tourbillon system;

the display system is arranged on the center two wheels;

the needle pulling system is designed on the upper clamping plate and is connected with the display system to realize the function of moving the movement;

the winding system is designed on the lower clamping plate and is connected with the movement driving system to realize the winding function of the movement.

3. The design method of the mechanical watch movement with the tourbillon position changeable according to claim 2, wherein two screw positions C1 and C2 for mounting the upper clamping plate are designed on the strip clamping plate, and when the movement driving system is mounted at the 12 point position or the 6 point position of the watch machine, the strip clamping plate is correspondingly mounted at the C1 and C2 position corresponding to the 12 point position of the upper clamping plate or at the C1 and C2 position corresponding to the 6 point position of the upper clamping plate.

4. The method for designing a mechanical watch movement with a convertible tourbillon position according to claim 1, further solving the problem of the lower plate being capable of being mounted with the upper plate in a first position and a second position, respectively,

the upper clamping plate and the lower clamping plate are respectively provided with a corresponding installation position;

the corresponding installation positions of the upper clamping plate and the lower clamping plate are symmetrical and are on a straight line passing through the center of the clamping plate, and the installation positions can be set into one group or multiple groups according to the size of the machine core and the firmness degree of the upper clamping plate and the lower clamping plate.

5. The design method of mechanical watch movement with changeable tourbillon position according to claim 1, wherein to further solve the problem that the lower clamping plate can be respectively installed with the upper clamping plate at the first position and the second position to realize the winding function,

the lower clamping plate is arranged at a first position and the upper clamping plate, the 12-point position is a tourbillon system and the 6-point position is a movement driving system when seen from the surface of the movement meter, and the winding system is designed in a fourth quadrant when the lower clamping plate is positioned at the first position;

the lower clamping plate is arranged at a second position and the upper clamping plate, the 12-point position is a movement driving system and the 6-point position is a tourbillon system when seen from the surface of the movement meter, and the winding system is designed in a first quadrant when the lower clamping plate is positioned at the second position; the first position of the lower clamping plate is the initial design position of the lower clamping plate, piles and grooves of the upper strip system are symmetrically designed and assembled in the third quadrant and the fourth quadrant of the lower clamping plate, and therefore the lower clamping plate can be installed with the upper clamping plate at the first position and the second position respectively, and the winding function is achieved.

6. A watch movement made by the design method of the mechanical watch movement capable of changing the tourbillon position according to claim 1, characterized in that it comprises a movement driving system, a tourbillon train and a clamping plate; the device is characterized in that the clamping plate is an installation carrier of the movement and comprises an upper clamping plate, a lower clamping plate and a bar clamping plate; the 12-point position and the symmetrical 6-point position of the upper clamping plate are provided with accommodating holes for accommodating the tourbillon gear train and the movement driving system, and the tourbillon gear train and the movement driving system can exchange mounting positions between the accommodating holes of the 12-point position and the 6-point position; the lower clamping plate is a lower support carrier of the movement driving system and the tourbillon train, and the movement driving system and the tourbillon train on the lower clamping plate correspond to the 12-point and 6-point containing holes in the upper clamping plate; the strip clamp plate is arranged on the upper clamp plate dial plate noodle clamp plate groove, and the lower clamp plate is assembled with the upper clamp plate rear cover surface plate.

7. The watch movement of claim 6, wherein the 12-point position and the 6-point position of the upper clamping plate are respectively provided with a strip clamping plate groove matched with a strip clamping plate, the strip clamping plate is an upper supporting carrier of a movement driving system, and the screw is combined with the lower clamping plate into a whole through the strip clamping plate and the upper clamping plate.