A multi-dial interface display watch assembly
By using a multi-display watch component, the problem of unclear power reserve display in traditional watch components is solved, achieving intuitive display of energy status and improving aesthetics.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 深圳市贝伦斯智能穿戴科技有限公司
- Filing Date
- 2025-07-14
- Publication Date
- 2026-07-07
AI Technical Summary
Traditional watch components lack a power reserve indicator, making it difficult for wearers to know the remaining power, and they are also aesthetically unappealing.
Design a multi-display watch component that, through the assembly of a subplate and a mainplate, combined with components such as an hour dial, minute dial, scale glass, and second hand, achieves an intuitive display of the energy status.
It provides an intuitive display of the energy status, enhances the watch's aesthetics, and avoids the problem of the hands stopping due to depletion of power.
Smart Images

Figure CN224471960U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of watch technology, specifically to a watch component with a multi-dial interface display. Background Technology
[0002] Mechanical watches are powered by a mainspring within the movement. Manual-winding watches rely on manually winding the mainspring for power, while automatic-winding watches utilize the oscillation of an automatic rotor to drive the mainspring. The mainspring stores energy, distributing it evenly and in small amounts to the oscillator. This energy is transmitted through a gear train, which proportionally reduces the transmitted force while increasing the number of rotations, transferring the mainspring's energy to the escapement mechanism. The escapement mechanism, consisting of an escape wheel and escape fork, handles the energy from the gear train and distributes it evenly to the balance wheel, controlling its rotation. The balance wheel and balance spring form the regulating mechanism. The balance wheel oscillates continuously, and the length and elasticity of the balance spring determine the oscillation rate, allowing for fine-tuning of time and ensuring the watch's accuracy. Traditional watch components lack a power reserve indicator, making it difficult for the wearer to know the remaining power. Often, the hands stop moving before the power is realized, and the watch's appearance is also less aesthetically pleasing. Summary of the Invention
[0003] The purpose of this invention is to provide a watch component with a multi-disc interface display to solve the problems mentioned in the background art.
[0004] To achieve the above objectives, this utility model provides the following technical solution: a multi-disc display watch assembly, comprising a secondary clamp plate and a main clamp plate assembly that are fixedly installed together;
[0005] A spring box is provided between the sub-plate and the main plate assembly to provide energy, and a shank is provided on the main plate assembly to replenish the energy of the spring box through the shank.
[0006] The main clamping plate assembly is equipped with a dial cover plate assembly, and a dial and a toothed ring assembly are provided on the dial cover plate assembly. The clock hand is displayed by rotating the toothed ring assembly relative to the dial.
[0007] The cover plate is equipped with a dial, which works in conjunction with its corresponding toothed ring to display the minute hand.
[0008] The sub-clamp plate is also equipped with a scale glass, axle 12, a second hand component and a second tube. The axle 12 limits the movement of the second hand component, and the second tube drives the movement of the second hand component. The second hand component cooperates with the scale glass to display the second hand.
[0009] The sub-clamp plate is equipped with a large steel wheel, which is connected to the mainspring barrel in a drive connection. A screw five is installed in the large steel wheel, which is used to fix the large steel wheel to the mainspring barrel.
[0010] The auxiliary clamping plate is equipped with gear three to four components, and gear three to four components are provided with screw three. Screw three is used to fix gear three to four components to the auxiliary clamping plate. The auxiliary clamping plate and the main clamping plate are fixedly installed together by screw four.
[0011] The secondary clamping plate is provided with two screws, a cover plate and a small steel wheel. The cover plate is fixedly installed on the secondary clamping plate by the two screws. The small steel wheel is rotated and sleeved on the outside of the cover plate. The small steel wheel meshes with the large steel wheel.
[0012] The main clamping plate assembly is equipped with a three-wheel component, a second wheel component, and a dividing wheel component. The three-wheel component drives the second wheel component and the dividing wheel component, and the second wheel component drives the second tube to rotate.
[0013] The outside of the shank is equipped with a vertical wheel and a clutch wheel, which actuates the small steel wheel. The main clamp plate is equipped with an escapement component, a second wheel component, an energy wheel component, and gear components one and two. The escapement component works with the second wheel component to achieve intermittent motion. The second wheel component drives the third wheel component, gear components one and two drive the energy wheel component, and the second wheel component drives gear components one and two.
[0014] The main clamping plate assembly is also equipped with eight components: a first pass wheel, a second split wheel component, a cross wheel, a first screw, a second small clamping plate, a needle-shifting wheel, an hour wheel, and gears. The first pass wheel drives gears thirteen to fourteen, the second split wheel component drives the cross wheel, the cross wheel drives the first pass wheel and the hour wheel, the first screw fixes the second small clamping plate to the main clamping plate assembly, and the needle-shifting wheel drives the cross wheel for adjusting the time.
[0015] The main clamp plate assembly is equipped with a compression spring, a clutch rod, and a pull-out component. The compression spring provides elastic force, the clutch rod is used to adjust the axial position of the clutch wheel, and the pull-out component realizes the gear adjustment of the shank.
[0016] Compared with the prior art, the beneficial effects of this utility model are:
[0017] This utility model relates to a multi-dial display watch component, which enables multi-dial display and, through the cooperation of the multi-dial display and the sub-plate, forms a human face shape, enhancing its decorative appearance. Furthermore, through the cooperation of the energy hand and the sub-dial, the movement's energy status can be displayed intuitively, solving the problems of unclear energy display or the need for additional complex structures in the prior art. Attached Figure Description
[0018] Figure 1 This is a schematic diagram of the overall structure of this utility model.
[0019] Figure 2 This is an exploded view of the present invention.
[0020] Figure 3 This is an exploded view of the main clamping plate assembly of this utility model.
[0021] Figure 4 This is an exploded view of the assembly point of the letter cover plate of this utility model.
[0022] Figure 5 This is a schematic diagram of an explosion at the time plate of this utility model.
[0023] Figure 6 This is a schematic diagram of the three or four gear components.
[0024] Figure 7 This is a schematic diagram of the secondary clamping plate.
[0025] Figure 8 This is a schematic diagram of the secondary clamping plate from another angle.
[0026] Figure 9 This is a schematic diagram of the cover plate.
[0027] Figure 10 This is a schematic diagram of the clutch wheel.
[0028] Figure 11 This is a schematic diagram of a vertical roller.
[0029] Figure 12 A schematic diagram of the main clamping plate assembly.
[0030] Figure 13 This is a schematic diagram of the cover plate assembly.
[0031] Figure 14 This is a schematic diagram of the balance wheel assembly.
[0032] Figure 15 A schematic diagram showing the balance wheel being assembled at another angle.
[0033] In the diagram: 1. Screw 5; 2. Large steel wheel; 3. Screw 3; 4. Gear assembly 3-4; 5. Screw 4; 6. Sub-plate; 7. Screw 2; 8. Cover plate; 9. Small steel wheel; 10. Three-wheel assembly; 11. Second wheel assembly; 12. Clutch wheel; 13. Vertical wheel; 14. Handlebar; 15. Escapement assembly; 16. Second wheel assembly; 17. Mainspring barrel; 18. Energy wheel assembly; 19. Gear assembly 1-2; 20. Mainplate assembly; 21. Intermediate wheel 1; 22. Divider wheel assembly; 23. Intermediate wheel; 24. Screw 1; 25. Small plate 2; 26. Shift wheel; 27. Compression spring; 28. Clutch lever; 29. Gear assembly; 30. 31. Dial cover assembly; 32. Hour wheel compression spring; 33. Hour wheel; 34. Gear five components; 35. Gear nine to ten components; 36. Screw seven; 37. Gear six to seven components; 38. Energy compression spring; 39. Gear eight components; 40. Gear thirteen to fourteen components; 41. Small clamp plate six; 42. Hour dial; 43. Gear ring assembly; 44. Fork clamp plate assembly; 45. Escapement fork assembly; 46. Screw six; 47. Scale glass; 48. Balance wheel assembly; 49. Small clamp plate five assembly; 50. Small clamp plate seven; 51. Energy hand; 52. Small clamp plate eight; 53. Dial plate; 54. Axle twelve; 55. Second hand assembly; 56. Second tube. Detailed Implementation
[0034] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0035] Please see Figures 1 to 15 This utility model provides a technical solution: a multi-display watch assembly, including a secondary plate 6 and a main plate assembly 20 fixedly installed together; a mainspring barrel 17 is provided between the secondary plate 6 and the main plate assembly 20 for providing energy; a stem 14 is provided on the main plate assembly 20 to replenish energy to the mainspring barrel 17; a dial cover plate assembly 30 is installed on the main plate assembly 20, and an hour disc 41 and a toothed ring assembly 42 are provided on the dial cover plate assembly 30, with the hour hand displayed by the rotation of the toothed ring assembly 42 relative to the hour disc 41; a minute disc 52 is installed on the dial cover plate assembly 30, with the minute hand displayed by the cooperation of the minute disc 52 with its corresponding toothed ring assembly 42.
[0036] The secondary clamping plate 6 is also equipped with a scale glass 46, axle 12 53, a second hand component 54, and a second tube 55. The second hand component 54 is limited by the axle 12 53, and the second hand component 54 is driven to move by the second tube 55. The second hand component 54 cooperates with the scale glass 46 to display the second hand. The secondary clamping plate 6 is provided with a large steel wheel 2, which is connected to the mainspring box 17. A screw 5 1 is installed in the large steel wheel 2 to fix the large steel wheel 2 to the mainspring box 17. Gear components 3 to 4 are installed on the secondary clamping plate 6. A screw 3 3 is installed in the gear components 3 to 4 to fix the gear components 3 to 4 to the secondary clamping plate 6. The secondary clamping plate 6 and the main clamping plate assembly 20 are fixedly installed by screw 4 5.
[0037] The secondary clamping plate 6 is equipped with screw 2 7, cover plate 8 and small steel wheel 9. The cover plate 8 is fixedly installed on the secondary clamping plate 6 by screw 2 7. The small steel wheel 9 rotates and is sleeved on the outside of the cover plate 8. The small steel wheel 9 meshes with the large steel wheel 2.
[0038] The main plate assembly 20 is equipped with a three-wheel component 10, a second wheel component 11, and a minute wheel component 22. The three-wheel component 10 drives the second wheel component 11 and the minute wheel component 22, and the second wheel component 11 drives the second tube 55 to rotate. A vertical wheel 13 and a clutch wheel 12 are mounted on the outside of the shank 14. The vertical wheel 13 actuates the small steel wheel 9. The main plate assembly 20 is equipped with an escapement component 15, a second wheel component 16, an energy wheel component 18, and gear components 1-2 19. The escapement component 15 cooperates with the second wheel component 11 to achieve intermittent motion. The second wheel component 16 drives the three-wheel component 10, and gear components 1-2 19 drive the energy wheel component 18. The second wheel component 16 also drives gear components 1-2 19. The main plate assembly 20 is also equipped with a first pass wheel 21, a minute wheel component 22, a cross wheel 23, a first screw 24, a second small plate 25, a setting wheel 26, an hour wheel 32, and a gear component 8 38.
[0039] The first gear 21 drives gears thirteen to fourteen assemblies 39, the second gear assembly 22 drives the intermediate gear 23, the intermediate gear 23 drives the first gear 21 and the hour gear 32, the screw 24 fixes the second small clamping plate 25 to the main clamping plate assembly 20, and the dial wheel 26 drives the intermediate gear 23 for time adjustment. The main clamping plate assembly 20 is equipped with a compression spring 27, a clutch lever 28 and a pull-out component 29. The compression spring 27 provides elastic force, the clutch lever 28 is used to adjust the axial position of the clutch wheel 12, and the pull-out component 29 realizes the gear adjustment of the handle 14.
[0040] like Figure 4As shown, the hour wheel spring 31 is attached to the hour wheel 32 to reduce wobbling. The hour wheel 32 drives gear components nine and ten 34, gear component five 33 drives gear components six and seven 36, gear components nine and ten 34 drives the gear ring assembly 42, screw seven 35 fixes the dial cover plate assembly 30 to the main clamping plate assembly 20, gear components six and seven 36 drive gear component eight 38, and the energy spring 37 is used to reduce the wobbling of gear component eight 38. Gear component eight 38 drives the energy needle 50 to indicate the amount of energy stored in the mainspring.
[0041] Gear components thirteen to fourteen (39) drive the gear ring assembly (42). Small clamp plate six (40) is fixedly installed on the dial (41). Fork clamp plate assembly (43) is installed on the auxiliary clamp plate (6). Fork clamp plate assembly (43) limits the axial movement of the escape fork component (44). The escape fork component (44) is located below the fork clamp plate assembly (43). The escape fork component (44) and escape component (15) realize the intermittent movement of gear transmission. The scale glass (46) is fixedly installed to the auxiliary clamp plate (6) by screw six (45). The balance wheel assembly (47) is located on the auxiliary clamp plate (6). Small clamp plate five (48) is fixed on the dial cover assembly (30) to display energy information. Small clamp plate seven (49) is installed on the dial (52). The energy needle (50) cooperates with small clamp plate eight (51) to indicate energy.
[0042] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A watch component with a multi-disc interface display, characterized in that: This includes the assembly of the secondary clamping plate and the main clamping plate, which are fixedly installed together. A spring box is provided between the sub-plate and the main plate assembly to provide energy, and a shank is provided on the main plate assembly to replenish the energy of the spring box through the shank. The main clamping plate assembly is equipped with a dial cover plate assembly, and a dial and a toothed ring assembly are provided on the dial cover plate assembly. The clock hand is displayed by rotating the toothed ring assembly relative to the dial. The cover plate is equipped with a dial, which works in conjunction with its corresponding toothed ring to display the minute hand. The sub-clamp plate is also equipped with a scale glass, axle 12, a second hand component and a second tube. The axle 12 limits the movement of the second hand component, and the second tube drives the movement of the second hand component. The second hand component cooperates with the scale glass to display the second hand.
2. The watch component with a multi-dial interface display according to claim 1, characterized in that: The sub-clamp plate is equipped with a large steel wheel, which is connected to the mainspring barrel in a drive connection. A screw five is installed in the large steel wheel, which is used to fix the large steel wheel to the mainspring barrel. The auxiliary clamping plate is equipped with gear three to four components, and gear three to four components are provided with screw three. Screw three is used to fix gear three to four components to the auxiliary clamping plate. The auxiliary clamping plate and the main clamping plate are fixedly installed together by screw four.
3. A watch component with a multi-disc interface display according to claim 2, characterized in that: The secondary clamping plate is provided with two screws, a cover plate and a small steel wheel. The cover plate is fixedly installed on the secondary clamping plate by the two screws. The small steel wheel is rotated and sleeved on the outside of the cover plate. The small steel wheel meshes with the large steel wheel.
4. A watch component with a multi-dial interface display according to claim 3, characterized in that: The main clamping plate assembly is equipped with a three-wheel component, a second wheel component, and a dividing wheel component. The three-wheel component drives the second wheel component and the dividing wheel component, and the second wheel component drives the second tube to rotate.
5. A watch component with a multi-disc interface display according to claim 4, characterized in that: The outside of the shank is equipped with a vertical wheel and a clutch wheel, which actuates the small steel wheel. The main clamp plate is equipped with an escapement component, a second wheel component, an energy wheel component, and gear components one and two. The escapement component works with the second wheel component to achieve intermittent motion. The second wheel component drives the third wheel component, gear components one and two drive the energy wheel component, and the second wheel component drives gear components one and two.
6. A watch component with a multi-disc interface display according to claim 5, characterized in that: The main clamping plate assembly is also equipped with eight components: a first pass wheel, a second split wheel component, a cross wheel, a first screw, a second small clamping plate, a needle-shifting wheel, an hour wheel, and gears. The first pass wheel drives gears thirteen to fourteen, the second split wheel component drives the cross wheel, the cross wheel drives the first pass wheel and the hour wheel, the first screw fixes the second small clamping plate to the main clamping plate assembly, and the needle-shifting wheel drives the cross wheel for adjusting the time.
7. A watch component with a multi-dial interface display according to claim 6, characterized in that: The main clamp plate assembly is equipped with a compression spring, a clutch rod, and a pull-out component. The compression spring provides elastic force, the clutch rod is used to adjust the axial position of the clutch wheel, and the pull-out component realizes the gear adjustment of the shank.