CN217133539U - Dial plate and timing device - Google Patents

Abstract

The application discloses dial plate and timing device relates to timing technical field. The dial plate comprises a reflective film and a dial plate main body capable of transmitting light; the dial plate main body comprises a first side and a second side which are opposite to each other, the first side is of a plane structure, the second side comprises a plurality of first tangent planes, and a connecting edge is formed at the joint of any two adjacent first tangent planes; the reflective film is attached to the second side. The dial plate provided by the application can show a three-dimensional effect, can provide stronger visual impact for a user, and improves user experience.

Description

Dial plate and timing device

Technical Field

The application relates to the technical field of timing, in particular to a dial plate and a timing device.

Background

With the improvement of living standard, the timing products such as watches are not only used for providing time display function, but also more consumers select the timing products as decorative accessories. Accordingly, consumer demand for time keeping products is also increasing.

However, the structural design of the existing timing product is only changed in two-dimensional angle, for example, the display effect of the timing product is changed by changing the color and the style of the applique, so that the visual fatigue is not brought to the user, and the visual impact is obviously weak, so that the user experience is poor.

SUMMERY OF THE UTILITY MODEL

The application provides a dial plate and timing device can realize the three-dimensional visual effect of dial plate, improves user's visual experience.

The present application provides:

a dial plate is used in a timing device and comprises a reflective film and a dial plate main body capable of transmitting light;

the dial plate main body comprises a first side and a second side which are opposite to each other, the first side is of a plane structure, the second side comprises a plurality of first tangent planes, and a connecting edge is formed at the joint of any two adjacent first tangent planes;

the reflective film is attached to the second side.

In some possible embodiments, the reflective film includes a coloring layer and a reflective layer, the coloring layer being disposed between the reflective layer and the dial main body.

In some possible embodiments, the dial plate further comprises a support, the support is provided with an embedding groove, and the dial plate main body is embedded in the embedding groove;

the inlay groove includes the notch structure, first side with the notch structure flushes mutually.

In some possible embodiments, the mosaic groove comprises a groove bottom opposite to the dial body;

the groove bottom is provided with a plurality of second tangent planes which are opposite to and parallel to the first tangent planes one by one;

one side of the reflective film, which is far away from the dial plate main body, is attached to the groove bottom.

In some possible embodiments, the holder further has at least one through hole communicating with the embedding groove, and the through hole is disposed opposite to the reflective film.

In some possible embodiments, the notch structure is gradually approached from the second tangent plane close to the dial axis to the second tangent plane far from the dial axis.

In some possible embodiments, the bracket is provided with two through holes, and a connecting line of the two through holes is perpendicular to and intersects with an axis of the dial plate.

In some possible embodiments, a side of the bracket facing away from the embedding groove is further provided with a protruding insertion column, and the insertion column is used for connecting a movement in the timing device.

In addition, this application still provides a timing device, includes that this application provides the dial plate.

In some possible embodiments, the timepiece device further comprises a case, a bezel, a bottom case, a face glass and a movement;

the watch case, the bezel, the bottom shell and the face glass are matched to enclose a mounting cavity, the movement and the dial plate are arranged in the mounting cavity, and the dial plate is positioned on one side of the movement, which is close to the face glass;

the watch ring is provided with a limiting flange used for limiting the dial plate in a protruding mode on one side close to the axis of the dial plate, and a flexible pad is arranged between the limiting flange and the dial plate.

The beneficial effect of this application is: the application provides a dial plate and timing device, and timing device includes this dial plate. Wherein, the dial plate includes reflective membrane and can printing opacity dial plate main part. The dial plate main part is including being planar structure's first side and being provided with the second side of a plurality of first tangent planes, simultaneously, intersects in a connecting edge between arbitrary two adjacent first tangent planes. The reflective membrane can be laminated and set up in the second side of dial plate main part.

In the use of dial plate, light accessible first side gets into dial plate main part 10, and when light reachd the second side of dial plate main part, it can carry out irregular refraction to light to connect the arris position for the inside light of dial plate is more changeable. In addition, when the light reaches the reflective film, the light may be further reflected by the reflective film. Therefore, the illusion-like light and shadow effect can be generated in the dial plate main body, the dial plate presents a three-dimensional effect, strong visual impact is brought to a user, and the user experience effect is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

Fig. 1 shows a schematic cross-sectional structure of a dial in some embodiments;

fig. 2 shows a schematic cross-sectional structure of the dial body in some embodiments;

fig. 3 shows a schematic top view of the dial body in some embodiments;

fig. 4 shows a schematic cross-sectional structure diagram of the dial plate main body and the reflective film in some embodiments;

FIG. 5 is a schematic diagram showing a partial cross-sectional structure of a retroreflective sheeting in some embodiments;

FIG. 6 illustrates a schematic top view of a stent in some embodiments;

FIG. 7 is a schematic cross-sectional view of a timing device in some embodiments;

fig. 8 is a partially enlarged structural view of a portion a in fig. 7.

Description of the main element symbols:

100-dial plate; 10-a dial body; 101-a first side; 102-a second side; 11-first section; 12-a connecting edge; 13-a first via; 20-a reflective film; 21-a coloured layer; 22-a reflective layer; 30-a scaffold; 31-a mosaic groove; 311-notch configuration; 312-groove bottom; 3121-second cut; 32-a via hole; 33-a second via; 34-a plug-in post; 200-a watch case; 300-bezel; 310-a position-defining flange; 400-face glass; 500-a movement; 600-a bottom shell; 700-a pointer component; 800-crown; 900-Flexible pad.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present application and are not to be construed as limiting the present application.

In the description of the present application, it is to be understood that the terms "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral parts; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through intervening media. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

In an embodiment, a watch face 100 is provided for use in a timekeeping device such as a wristwatch or pocket watch.

As shown in fig. 1, 2, and 4, the dial 100 may include a dial body 10 and a reflective film 20. The dial body 10 may have a light-transmitting property, that is, the dial body 10 may allow light to pass through. Illustratively, in some embodiments, the dial body 10 may be made of sapphire.

In other embodiments, the dial body 10 may be made of glass, crystal, or the like.

As shown in fig. 2 and 3, the dial body 10 may include opposing first and second sides 101, 102. Wherein the first side 101 may be a smooth planar structure. The second side 102 may include a plurality of first cut surfaces 11, and the plurality of first cut surfaces 11 may be in different planes, respectively. Accordingly, any two adjacent first cut surfaces 11 can intersect to form a connecting edge 12 at the connecting position. Thus, a batch grain structure having a plurality of cut surfaces can be formed on the second side 102 of the dial body 10. It will be appreciated that any first cut 11 may present a smooth planar configuration.

Referring to fig. 4, the reflective film 20 may be disposed on the second side 102 of the dial main body 10, that is, the reflective film 20 is disposed on the side of the dial main body 10 where the decorative pattern structure is disposed. It is understood that the light reflecting film 20 may reflect light.

External light can be incident from first side 101 of dial plate main part 10, and when the light reaches second side 102, can carry out irregular refraction to the light by the position of connecting arris 12 to make the light distribution of dial plate main part 10 inside more changeable. In addition, when the light reaches the reflective film 20, the light can be reflected by the reflective film 20. Since the reflective film 20 is attached to the surface having the embossed structure, the reflective film 20 can reflect light irregularly even if the portions of the reflective film 20 are located on different planes. Further, the dial main body 10 can exhibit a fantastic light effect. Accordingly, a user can see that the dial plate 100 presents a three-dimensional (3-Dimension) effect on the first side 101 of the dial plate main body 10, different effect experiences can be provided for the user, and the high-quality pursuit of the user for the timing device is met.

As shown in fig. 1 and 3, further, in some embodiments, the cross-section of the overall structure of the dial 100 can appear circular in a direction perpendicular to the axial direction of the dial 100. The axial direction of the dial 100 may refer to an extending direction of the axis L of the dial 100.

In the embodiment, the axis of the dial body 10 may be located at the axis L of the overall structure of the dial 100. The dial body 10 may also exhibit a substantially circular cross section in a direction perpendicular to the axis L.

In other embodiments, the cross-section of the overall structure of the dial 100 in a direction perpendicular to the axial direction of the dial 100 may also be substantially rectangular, square, oval, etc. Accordingly, the shape of the dial body 10 can be also adaptively adjusted according to the shape of the overall structure of the dial 100.

As shown in fig. 2 and 3, in some embodiments, the plurality of first tangential planes 11 may be arranged substantially radially on the second side 102 of the dial body 10. Accordingly, the design and beauty of the dial main body 10 can be improved, and accordingly, the design and beauty of the entire dial 100 can be improved.

In other embodiments, of course, the plurality of first cut surfaces 11 may also be arranged in an irregular arrangement on the second side 102 of the dial body 10.

In some embodiments, the first tangential plane 11, which is proximal to the axis L of the dial 100, may be disposed distal to the first side 101 relative to the first tangential plane 11, which is circumferentially distal from the axis L. That is, the first cut surface from the first cut surface close to the axis L to the first cut surface 11 away from the axis L may gradually approach the first side 101. Accordingly, the side of the dial body 10 adjacent to the second side 102 may generally exhibit an inverted cone shape.

Of course, in other embodiments, it is not excluded that the first cut face 11 close to the axis L is arranged close to the first side 101 with respect to the first cut face 11 of the peripheral side remote from the axis L. Accordingly, the dial body 10 may define a generally conical recess structure on a side thereof adjacent the second side 102.

Further, in some embodiments, the first side 101 of the dial main body 10 may be fixedly provided with an identification component (not shown) by gluing or the like. The identification component can include, but is not limited to, one or more of logo images and texts, decoration images and texts, time scale identification and the like. In an embodiment, the sign assembly may be made of a metal sheet to exhibit a metallic luster. In addition, the identification component can be set to be in the colors of rose gold, silver, black, gold and the like.

As shown in fig. 4 and 5, in some embodiments, the reflective film 20 may include a colored layer 21 and a reflective layer 22 that are disposed in a stacked arrangement, and the colored layer 21 may be disposed adjacent to the dial body 10.

In some embodiments, the colored layer 21 can be coated with a high temperature ink. Wherein. The color of the high temperature ink can be selected as desired, for example, gray, blue, red, green, and the like. Accordingly, the colored layer 21 can be made to appear in corresponding colors of gray, blue, red, green, and the like.

In an embodiment, the reflective layer 22 may be disposed on a side of the colored layer 21 away from the dial main body 10 by an electroplating process. It will be appreciated that the reflective layer 22 may be used to achieve a reflective effect on light. In some embodiments, the reflective layer 22 may be made of one or more of silicon oxide, aluminum oxide, or magnesium fluoride. Accordingly, the reflective layer 22 may be provided in one or more layers as desired to ensure adequate reflection of light.

The dial main body 10 can exhibit a colorful 3D effect by the reflection action of the reflection layer 22 and the coloring effect of the coloring layer 21. In addition, each part of the reflective film 20 is located on different planes, so that irregular reflection of light is realized, the interior of the dial plate main body 10 can present color distribution with alternate light and shade, a 3D (three-dimensional) effect is more presented, and the presentation effect of the dial plate main body 10 is enriched. That is, the dial 100 is made to exhibit a more colorful 3D stereoscopic effect.

As shown in fig. 1 and 6, further, in some embodiments, dial 100 also includes a brace 30.

Wherein, the bracket 30 may be in a disc shape. An insertion groove 31 having a circular section may be formed at one side of the bracket 30. The section of the mosaic groove 31 may also refer to a section perpendicular to the axial direction of the dial 100. In the embodiment, the insertion groove 31 may be coaxially disposed with the holder 30, the dial body 10 may be fixedly inserted in the insertion groove 31, and the dial body 10 may be coaxial with the holder 30.

The damascene groove 31 may include a notch structure 311 and a groove bottom 312 opposite to the notch structure 311. It is understood that the reflection film 20 can be fitted into the inlay groove 31 from the notch structure 311 together with the dial body 10. The light reflecting film 20 may be disposed near the groove bottom 312 side, and the side of the light reflecting film 20 remote from the dial main body 10 may be in contact with the groove bottom 312.

In some embodiments, the first side 101 of the dial body 10 may be flush with the notch structure 311, i.e., the first side 101 of the dial body 10 is flush with a side surface of the support 30 near the notch structure 311. Therefore, the probability of damage to the dial main body 10 due to collision can be reduced, and the support 30 provides corresponding protection for the dial main body 10.

As shown in fig. 1 and fig. 6, in some embodiments, the groove bottom 312 of the damascene groove 31 is provided with a plurality of second cut surfaces 3121, and the plurality of second cut surfaces 3121 are corresponding to and parallel to the plurality of first cut surfaces 11, that is, any second cut surface 3121 is parallel to the corresponding first cut surface 11. Accordingly, the groove bottom 312 of the mosaic groove 31 may be formed in a groove structure having a substantially reverse tapered shape according to the second side 102 of the dial body 10. I.e., from the second cut surface 3121 near the axis L to the second cut surface 3121 away from the axis L, gradually approaching the notch structure 311.

When the reflecting film 20 is fitted into the bezel 31 together with the dial body 10, a side surface of the reflecting film 20 remote from the dial body 10 may be completely fitted to the groove bottom 312. Accordingly, the second side 102 of the dial body 10 may be supported by the groove bottom 312. Therefore, the support 30 can provide a comprehensive support for the dial main body 10, so as to avoid uneven stress on each direction of the dial main body 10, and further, effectively reduce the probability of damage to the dial main body 10.

In some embodiments, in the circumferential direction of the dial body 10, the gap between the groove wall of the mosaic groove 31 in the circumferential direction and the dial body 10 may be set to 0.05mm to 0.10 mm. The smooth installation of the dial main body 10 into the insertion groove 31 is ensured, and the possibility of the dial main body 10 shaking in the insertion groove 31 is reduced, thereby reducing the possibility of damage caused by collision between the dial main body 10 and the groove wall of the insertion groove 31. For example, the circumferential groove wall of the mosaic groove 31 may be set to have a gap of 0.05mm, 0.07mm, 0.08mm, 0.10mm, or the like, with respect to the dial body 10.

Further, in some embodiments, the side of the reflective film 20 away from the dial body 10 may be fixedly connected to the groove bottom 312 by gluing. Correspondingly, also can make dial plate main part 10 for inlaying groove 31 fixed mounting, further avoid dial plate main part 10 to rock at will in inlaying groove 31, and then effectively avoid dial plate main part 10 to damage because of the collision.

As shown in fig. 1, the side of the bracket 30 remote from the notch structure 311 may be provided in a smooth planar configuration. Therefore, when the dial plate 100 is assembled on the timing device, the stable assembly of the dial plate 100 on the movement 500 in the timing device can be ensured, the dial plate 100 is prevented from shaking randomly in the timing device and being damaged by collision, meanwhile, the normal operation of other structures in the timing device can be ensured, the maintenance frequency of the timing device is reduced, and the service life of the timing device is prolonged.

Further, as shown in fig. 1, in some embodiments, a side of the bracket 30 away from the slot structure 311 is further provided with a plug-in post 34, and the plug-in post 34 may be convexly disposed relative to a side surface of the bracket 30 away from the slot structure 311. When the dial 100 is mounted on a corresponding timing device, the insertion column 34 can be inserted into and connected with the movement 500 in the timing device, so that the dial 100 can be positioned and fixed.

Of course, in other embodiments, further securement between stake 34 and cartridge 500 may be achieved by interference fit, gluing, etc.

In an embodiment, the number of the insertion posts 34 can be set as desired, for example, two, three, five, etc.

As shown in fig. 6, the bracket 30 is further provided with at least one through hole 32 communicating with the insert groove 31. And the through hole 32 may be disposed opposite to the notch structure 311 of the damascene groove 31. Accordingly, the through hole 32 may be opposed to the reflection film 20 when the reflection film 20 and the dial body 10 are fitted into the inlay groove 31.

In the embodiment, the reflective film 20 is fixedly connected to the groove bottom 312 by gluing. During the assembly process, glue can be coated on the surface of the groove bottom 312, and then the reflective film 20 and the dial body 10 are placed into the embedding groove 31 together, so that the side of the reflective film 20 away from the dial body 10 is in contact with the glue, and the compression bonding is realized. During the pressing process, the excess glue can overflow out through the through hole 32. Therefore, glue can be prevented from overflowing to the gap between the circumferential side wall of the dial plate main body 10 and the circumferential side wall of the embedding groove 31, and further the influence of glue overflow on the appearance structure of the dial plate 100 can be avoided.

In an embodiment, the through hole 32 may be located close to the axial position of the dial 100, i.e. such that the through hole 32 is located as close as possible to the low position, so that the glue overflows from the through hole 32 position.

In addition, when some parts in the dial 100 need to be repaired or replaced and the dial body 10 needs to be separated from the support 30, the dial body 10 can be ejected out of the embedding groove 31 of the support 30 through the through hole 32, so that the dial body 10 can be separated from the support 30. It will be appreciated that maintenance of the dial 100 may also be facilitated by providing the through-hole 32.

In some embodiments, two through holes 32 may be formed in the support 30, and the two through holes 32 may be symmetrically disposed about the axis L of the dial 100, i.e., a line between the two through holes 32 perpendicularly intersects the axis L. Therefore, when the dial main body 10 and the support 30 are detached, the dial main body 10 can be stressed in a balanced manner, the dial main body 10 and the support 30 are prevented from being relatively inclined to cause shell clamping, and further abrasion between the dial main body 10 and the groove wall of the embedding groove 31 can be avoided.

Of course, in other embodiments, the number of through holes 32 may be set to one, three, five, six, etc. When the through-holes 32 are provided in plural, the plural through-holes 32 may be evenly distributed at intervals around the axis L of the dial 100.

Further, in some embodiments, the bracket 30 may be made of brass. The post 34 may be made of a non-ferrous metal. Accordingly, the insertion post 34 may be fixedly connected to a side surface of the bracket 30 away from the notch structure 311 by welding.

In other embodiments, it is not excluded that the engagement posts 34 are fixedly connected to the bracket 30 by way of integral molding, screwing, clipping, etc.

Of course, in other embodiments, the bracket 30 may be made of stainless steel, hard plastic, etc.

As shown in fig. 1, 3 and 6, further, in some embodiments, the dial main body 10 further has a first through hole 13, and the first through hole 13 may be disposed coaxially with the dial main body 10. It is understood that the first through hole 13 may communicate the first side 101 and the second side 102 of the dial body 10.

The bracket 30 is provided with a second via hole 33 opposite to and communicated with the first via hole 13, and the second via hole 33 is coaxial with the first via hole 13.

When the dial 100 is assembled to the corresponding timing device, the output shaft of the movement 500 may sequentially penetrate through the second through hole 33 and the first through hole 13 and extend to the first side 101 of the dial body 10, so as to install the pointer assembly 700 in the timing device on the output shaft of the movement 500, and the movement 500 drives the pointer assembly 700 to move.

It is understood that the reflective film 20 may form an avoiding notch at a position corresponding to the first via hole 13, so that the output shaft of the movement 500 can pass through smoothly.

As shown in fig. 7, a timing device is also provided in the embodiment, and may include the dial plate 100 provided in the embodiment. The timing device can be one of products such as a watch and a pocket watch.

In some embodiments, the timepiece device may further include a case 200, a bezel 300, a bezel 400, a movement 500, and a bottom case 600. Wherein, the watch case 200, the bezel 300, the face glass 400 and the bottom case 600 can cooperate to define a mounting cavity. The dial 100 and the movement 500 can be installed in the installation cavity, and the dial 100 can be positioned on one side of the movement 500 close to the face glass 400. It can be understood that the side of the movement 500 away from the dial 100 can abut against the bottom case 600 through a movement support.

In an embodiment, the side of the bracket 30 where the insertion column 34 is disposed may be disposed near the movement 500, and the insertion column 34 is connected to the movement 500, so as to mount the dial 100 on the movement 500. Accordingly, the first side 101 of the dial body 10 may face the face glass 400.

With reference to fig. 8, a limit flange 310 is further protruded from a side of the bezel 300 close to the axis L of the dial 100, and the limit flange 310 can limit the dial 100 on a side of the dial 100 away from the movement 500. Thereby, the dial 100 and the movement 500 are fixedly mounted in the mounting cavity.

In an embodiment, the position limit flange 310 may extend from the circumferential edge of the holder 30 to the circumferential edge of the dial main body 10. That is, the stopper flange 310 can simultaneously stopper the holder 30 and the dial main body 10 on the side away from the movement 500. Accordingly, the relative fixation between the dial main body 10 and the holder 30 can be further ensured.

In some embodiments, a flexible pad 900 is padded between the position-limiting flange 310 and the dial 100. The flexible pad 900 may be annular and, accordingly, the flexible pad 900 may be disposed in a circle around the circumferential edge of the dial 100. In an embodiment, the flexible pad 900 may be disposed at least between the position-defining flange 310 and the circumferential edge of the dial body 10. The flexible pad 900 may act as a buffer between the dial body 10 and the position-defining flange 310, preventing the position-defining flange 310 from crushing the dial body 10.

In some specific embodiments, the flexible pad 900 may extend from the circumferential edge of the support 30 to the circumferential edge of the dial body 10, that is, the side of the limiting flange 310 close to the dial 100 is abutted against the flexible pad 900, so that the assembly is more stable and reliable.

In an embodiment, the flexible pad 900 may be made of a flexible material such as silicone, rubber, etc. In addition, the thickness of the flexible pad 900 may be set to 0.35mm, 0.40mm, 0.42mm, 0.45mm, etc. to ensure that an effective and reliable buffer action is provided between the position-limiting flange 310 and the dial main body 10, and the probability of damage to the dial main body 10 is reduced.

As shown in fig. 7, in some embodiments, the timepiece device further includes a hand assembly 700 and a crown 800. The crown 800 may be installed on one side of the circumferential direction of the watch case 200, and the crown 800 may be connected to the movement 500, so that the user may perform operations such as time adjustment on the timing device through the crown 800.

The pointer assembly 700 may be mounted on an output shaft of the movement 500, and the pointer assembly 700 may be located in a space between the dial 100 and the face glass 400. Accordingly, the output shaft of the movement 500 may sequentially pass through the second via hole 33 and the first via hole 13 on the dial 100 to extend into the space between the dial 100 and the face glass 400. It is understood that pointer assembly 700 may be brought into travel by movement 500.

In the description herein, reference to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present application have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present application, and that variations, modifications, substitutions and alterations may be made to the above embodiments by those of ordinary skill in the art within the scope of the present application.

Claims (10)

1. A dial plate is used in a timing device and is characterized by comprising a reflective film and a dial plate main body capable of transmitting light;

the dial plate main body comprises a first side and a second side which are opposite to each other, the first side is of a plane structure, the second side comprises a plurality of first tangent planes, and a connecting edge is formed at the joint of any two adjacent first tangent planes;

the reflective film is attached to the second side.

2. The dial according to claim 1, wherein the reflective film includes a colored layer and a reflective layer, the colored layer being provided between the reflective layer and the dial body.

3. The dial plate according to claim 1 or 2, further comprising a support, wherein the support is provided with an embedding groove, and the dial plate main body is embedded in the embedding groove;

the inlay groove includes the notch structure, first side with the notch structure flushes mutually.

4. The dial according to claim 3, wherein said mosaic grooves comprise a groove bottom opposite to said dial body;

the groove bottom is provided with a plurality of second tangent planes which are opposite to and parallel to the first tangent planes one by one;

one side of the reflective film, which is far away from the dial plate main body, is attached to the groove bottom.

5. The dial plate of claim 4, wherein the support further comprises at least one through hole communicating with the embedding groove, and the through hole is disposed opposite to the reflective film.

6. The dial according to claim 5, wherein said notch structure is progressively approached from said second cut plane close to said dial axis to said second cut plane distant from said dial axis.

7. The dial according to claim 5, wherein said support has two said through holes, and a line connecting said two through holes perpendicularly intersects with an axis of said dial.

8. The dial according to claim 3, wherein a side of the support facing away from the inlay groove is further provided with a protruding insertion column for connecting a movement in the timing device.

9. Timepiece including a dial according to any one of claims 1 to 8.

10. A timepiece according to claim 9, further comprising a case, a bezel, a bottom case, a face glass, and a movement;

the watch case, the bezel, the bottom shell and the face glass are matched to enclose a mounting cavity, the movement and the dial plate are arranged in the mounting cavity, and the dial plate is positioned on one side of the movement, which is close to the face glass;

the watch ring is provided with a limiting flange used for limiting the dial plate in a protruding mode on one side close to the axis of the dial plate, and a flexible pad is arranged between the limiting flange and the dial plate.

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