CN116339105A - Watch dynamic display mechanism - Google Patents

Abstract

The invention discloses a watch dynamic display mechanism which comprises a dial plate, a movement unit and a driving unit, wherein the movement unit comprises a sliding block, a connecting rod and a connecting disc, the sliding block is movably arranged on the dial plate, the sliding block is connected with one end of the connecting rod, the other end of the connecting rod is connected with the connecting disc, the connecting disc is connected with the driving unit, and the driving unit can drive the connecting disc to rotate so as to drive the sliding block to move on the dial plate through the connecting rod. The watch dynamic display mechanism is simple and novel in structure, and the interest of the watch is improved and the creative watch market is developed by adding the dynamic display mechanism on the watch surface.

Description

Watch dynamic display mechanism

Technical Field

The invention relates to the technical field of mechanical products, in particular to a dynamic display mechanism for a watch.

Background

A wristwatch, or wristwatch, is a device worn on the wrist to count and display time, and is usually made of leather, rubber, nylon cloth, stainless steel, or other materials, and a "watch head" to display time is strapped on the wrist.

The development of the watch now tends to be in a new and odd development direction on the basis of knowing time, and then a dynamic display mode appears on the dial plate, so that the whole watch looks more vivid and interesting, and the playability of the watch is improved.

Disclosure of Invention

The technical problem to be solved by the invention is to provide the watch dynamic display mechanism which does not influence normal running time of the watch.

In order to solve the technical problems, the invention provides a watch dynamic display mechanism which comprises a dial plate, a movement unit and a driving unit, wherein the movement unit comprises a sliding block, a connecting rod and a connecting disc, the sliding block is movably arranged on the dial plate, the sliding block is connected with one end of the connecting rod, the other end of the connecting rod is connected with the connecting disc, the connecting disc is connected with the driving unit, and the driving unit can drive the connecting disc to rotate so as to drive the sliding block to move on the dial plate through the connecting rod.

Further, be provided with the connecting hole on the connection pad, the tip of connecting rod is provided with first spliced pole, and first spliced pole wears to establish in the connecting hole, and the tip of first spliced pole is inconsistent with the dial plate, and first spliced pole links to each other the tip of connecting rod and connection pad to with the tip movable support of connecting rod on the dial plate.

Further, be provided with the slide on the dial plate, be formed with the spacing groove in the slide, the slider slides and sets up in the slide, is provided with the second spliced pole on the slider, and the second spliced pole wears to establish in the spacing groove, and the slider can follow slide reciprocating motion, and the spacing groove is spacing to the direction of second spliced pole.

Further, the slider is connected with the end of the connecting rod through a second connecting column, a bushing is sleeved on the second connecting column, and the bushing is positioned between the end of the connecting rod and the dial plate so as to movably support the end of the connecting rod on the dial plate.

Further, a circular driving hole is formed in the middle of the connecting disc, the driving unit comprises a cam, the cam is embedded in the circular driving hole, and the cam rotates in the circular driving hole to drive the connecting disc to swing.

Further, a first connecting hole is formed in the connecting disc, and the end portion of the connecting rod is fixedly connected with the first connecting hole in the connecting disc.

Further, be provided with at least one second connecting hole on the connection pad, first connecting hole and second connecting hole encircle circular drive hole setting, and the quantity of connecting rod and the quantity phase-match of first connecting hole and second connecting hole, the tip and the connection pad of connecting rod on corresponding second connecting hole swing joint.

Further, the driving unit comprises a transmission bearing, the transmission bearing is arranged on the dial, the cam is connected with the transmission bearing, the transmission bearing is connected with the power assembly, and the power assembly drives the cam to rotate through the transmission bearing.

Further, the power component is an automatic hammer, a time wheel, a minute wheel or a second wheel.

Further, a cover plate is arranged at the round driving hole of the connecting disc in a covering mode, and the cover plate is connected with the cam to limit axial movement of the connecting disc.

The watch dynamic display mechanism is simple and novel in structure, and the interest of the watch is improved and the creative watch market is developed by adding the dynamic display mechanism on the watch surface.

Drawings

FIG. 1 is a front view of a watch motion display mechanism of the present invention;

FIG. 2 is a front perspective view of the watch motion display mechanism of the present invention;

FIG. 3 is a rear perspective view of the watch motion display mechanism of the present invention;

FIG. 4 is a cross-sectional view of a watch motion display mechanism of the present invention;

FIG. 5 is a front perspective view of the watch movement display mechanism of the present invention with the cover plate removed;

FIG. 6 is a perspective view of a dial in the present invention;

fig. 7 is a front perspective view of the movement unit in the present invention;

fig. 8 is a rear perspective view of the movement unit in the present invention;

fig. 9 is a perspective view of a connection pad in the present invention;

FIG. 10 is a perspective view of a connecting rod in the present invention;

FIG. 11 is a perspective view of a slider of the present invention;

fig. 12 is a front perspective view of the drive unit in the present invention;

fig. 13 is a rear perspective view of the drive unit in the present invention;

FIG. 14 is a front view of the time plate of the present invention;

FIG. 15 is a front view of a divider disk in the present invention;

FIG. 16 is a cross-sectional view of another embodiment of a watch motion display mechanism of the present invention;

fig. 17 is a front perspective view of the drive unit of fig. 16;

fig. 18 is a side view of the drive unit of fig. 16;

fig. 19 is a rear perspective view of the driving unit of fig. 16;

fig. 20 is a perspective view of the minute wheel of fig. 16.

Detailed Description

For a better understanding of the objects, functions and specific embodiments of the present invention, the dynamic display mechanism of a wristwatch according to the present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 15, the watch dynamic display mechanism of the present invention is applied to a watch, especially a mechanical watch, wherein the watch dynamic display mechanism includes a dial 100, a motion unit 200 and a driving unit 300, the motion unit 200 is movably disposed on the dial 100 and is connected to the driving unit 300, and the driving unit 300 can drive the motion unit 200 to move on the dial 100, so as to realize dynamic display of the watch.

Specifically, the movement unit 200 includes a slider 201, a connecting rod 202 and a connecting disc 203, wherein the slider 201 is movably disposed on the dial 100, the slider 201 is connected with one end of the connecting rod 202, the other end of the connecting rod 202 is connected with the connecting disc 203, the connecting disc 203 is connected with the driving unit 300, and the driving unit 300 can drive the connecting disc 203 to rotate so as to drive the slider 201 to move on the dial 100 through the connecting rod 202. It should be noted that in this embodiment, the number of the connection pads is one, the number of the sliding blocks and the number of the connection rods are six, and the six sliding blocks are connected with one connection pad through six connection rods.

Further, as shown in fig. 7 to 11, the connecting rod 202 is connected to the connection pad 203 through a first connection post 204, and the connecting rod 202 is connected to the slider 201 through a second connection post 205. Wherein, the middle part of the connection disc 203 is formed with a circular driving hole 206, six connecting holes are arranged around the circular driving hole 206 and correspond to six connecting rods 202 respectively, the first connecting column 204 is penetrated in the connecting holes, and the end part of the first connecting column 204 is in conflict with the dial 100, therefore, the first connecting column 204 not only connects the end part of the connecting rod 202 with the connection disc 203, but also movably supports the end part of the connecting rod 202 on the dial 100.

Further, as shown in fig. 6, a central hole 101 is formed in the middle of the dial 100, six slide ways 102 are provided around the central hole 101, corresponding to the six slide blocks 201, respectively, and a limit groove 103 is formed in each slide way 102. As shown in fig. 2 and fig. 3, the slider 201 is slidably disposed in the slideway 102, the second connection post 205 between the connecting rod 202 and the slider 201 is disposed in the limit slot 103 in a penetrating manner, the connecting rod 202 can drive the slider 201 to reciprocate along the slideway 102, and the limit slot 103 guides and limits the second connection post 205, so as to define a moving path of the slider 201.

Further, as shown in fig. 4 and 10, the second connecting post 205 is sleeved with a bushing 207, wherein the bushing 207 is located between the end of the connecting rod 202 and the dial 100 to movably support the end of the connecting rod 202 on the dial 100. Thus, bushing 207 and first coupling post 204 cooperate to support linkage 202 to reduce kinetic friction generated by direct contact of linkage 202 with dial 100.

Further, as shown in fig. 12 and 13, the driving unit 300 includes a cam 301, a transmission bearing 302, and an automatic hammer 303, wherein the transmission bearing 302 is fixedly disposed at the central hole 101 of the dial 100, the cam 301 is connected to one end of the transmission bearing 302, and is located at the front of the dial 100, the automatic hammer 303 is connected to the other end of the transmission bearing 302, and is located at the back of the dial 100, and the automatic hammer 303 drives the cam 301 to rotate through the transmission bearing 302.

Further, as shown in fig. 5, the cam 301 in the connection disc 203 and the driving unit 300 are both located at the central hole 101 of the dial 100, wherein the cam 301 is embedded in the circular driving hole 206 of the connection disc 203, and the automatic hammer 303 drives the cam 301 to rotate in the circular driving hole 206 through the transmission bearing 302, so as to drive the connection disc 203 to swing. Further, as shown in fig. 2, a cover plate 304 is provided at the circular driving hole 206 of the connection pad 203 in a covering manner, the diameter of the cover plate 304 is larger than that of the circular driving hole 206, and the cover plate 304 is connected with the cam 301 to restrict the axial movement of the connection pad 203.

Further, as shown in fig. 9, in this embodiment, six connection holes, that is, a first connection hole 208 and five second connection holes 209, are provided on the connection pad 203 around the circular driving hole 206, one connecting rod 202 is fixedly connected with the first connection hole 208 on the connection pad 203, and the other five connecting rods 202 are movably connected with the corresponding second connection holes 209 on the connection pad 203, so as to define a movement track of the connection pad 203. It should be noted that, in the form of driving the connecting disc to swing by the intermediate cam, one connecting rod is required to be fixedly connected with the connecting disc, and only one connecting rod is required to be movably connected with the connecting disc, but the number of the connecting rods which are movably connected with the connecting disc is not limited, and in addition, the connecting rods and the sliding blocks are also required to be movably connected.

In summary, the driving unit 300 (cam 301, transmission bearing 302 and automatic hammer 303) and the moving unit 200 (slider 201, connecting rod 202 and connecting disc 203) form a dynamic display mechanism on the dial 100, when the watch shakes, the automatic hammer 303 rotates, and then the cam 301 is driven to make eccentric movement by the transmission bearing 302, the connecting disc 203 is driven to make eccentric movement by the movement of the cam 301 in the circular driving hole 206, and the connecting disc 203 drives the connecting rod 202 to swing, so that the slider 201 is driven to reciprocate along the sliding groove on the dial 100. It should be noted that the number of the connecting rods and the sliding blocks in the invention is not limited to six, and one or more sliding blocks can be used, and the uniformly distributed positions of the sliding blocks on the circumference of the dial are not limited by the illustration, so long as the dynamic effect can be displayed.

Further, for the time display form, in this embodiment, a dial display is performed, and as shown in fig. 1, 4, 14 and 15, a display window 106 is provided on the dial 100 at a position corresponding to the hour plate 104 and the minute plate 105, the hour plate 104 is mounted on the hour wheel of the main movement, the minute plate 105 is mounted on the minute wheel of the main movement, the second wheel passes through the center hole 101 of the transmission bearing 302 above, and the second hand 107 is mounted on the second wheel. It will be understood, of course, that, in addition to the embodiments of the present invention, the time display may be indicated by a conventional central hour, minute and second hand, and that hour, minute and second hands on the movement are designed to pass through the central hole of the transmission bearing, and are respectively provided with an hour hand, minute hand and second hand to indicate time.

The watch dynamic display mechanism and the time display of the watch have no relation, have no transmission relation with the watch movement on a wheel system, are independent additional mechanisms, can be independently assembled into a module, and can shake the watch by means of manpower, and the sliding blocks on the dial are driven to slide back and forth along with the swinging of an automatic hammer in the watch dynamic display mechanism.

Fig. 16 to 20 show another embodiment of a watch motion display mechanism according to the present invention. In this embodiment, the power source of the watch dynamic display mechanism comes from the minute wheel of the movement, that is, the original structure of the watch is used to replace the automatic hammer in the previous embodiment.

Further, the minute wheel 108 is connected with the transmission bearing 302, which is shown as square tenon matching, at this time, the rotation speed of the transmission bearing 302 is the rotation speed of the minute wheel 108 of the movement, that is, the cam 301 connected with the transmission bearing 302 eccentrically rotates along with the rotation of the minute wheel 108, the movement of the cam 301 in the circular driving hole 206 drives the connecting disc 203 to eccentrically move, and the connecting disc 203 drives the connecting rod 202 to swing, so that the sliding block 201 is driven to reciprocate along the sliding groove on the dial 100, and therefore, the sliding block 201 on the dial 100 can be seen to be changed in different positions at different times.

Of course, it can be understood that the power source of the watch dynamic display mechanism can also come from the hour wheel or the second wheel of the movement, namely, the hour wheel or the second wheel is mutually connected with the transmission bearing, and meanwhile, the connection mode is not limited to the square tenon fit shown in the figure, and other connection structures such as clamping connection, threaded connection and the like can also be adopted.

The invention has been further described with reference to specific embodiments, but it should be understood that the detailed description is not to be construed as limiting the spirit and scope of the invention, but rather as providing those skilled in the art with the benefit of this disclosure with the benefit of their various modifications to the described embodiments.

Claims (10)

1. The utility model provides a dynamic display mechanism of wrist-watch, its characterized in that includes dial plate, motion unit and drive unit, and the motion unit includes slider, connecting rod and connection pad, and the slider activity sets up on the dial plate, and the slider links to each other with the one end of connecting rod, and the other end of connecting rod links to each other with the connection pad, and the connection pad links to each other with drive unit, and drive unit can order about the connection pad to rotate to drive the slider through the connecting rod and remove on the dial plate.

2. The watch dynamic display mechanism according to claim 1, wherein the connecting disc is provided with a connecting hole, the end part of the connecting rod is provided with a first connecting column, the first connecting column is arranged in the connecting hole in a penetrating way, the end part of the first connecting column is in contact with the dial plate, the first connecting column connects the end part of the connecting rod with the connecting disc, and the end part of the connecting rod is movably supported on the dial plate.

3. The watch dynamic display mechanism according to claim 1 or 2, wherein a slide way is arranged on the dial, a limit groove is formed in the slide way, the slide block is slidably arranged in the slide way, a second connecting column is arranged on the slide block, the second connecting column is arranged in the limit groove in a penetrating way, the slide block can reciprocate along the slide way, and the limit groove guides and limits the second connecting column.

4. A watch movement display mechanism according to claim 3 wherein the slider is connected to the end of the link by a second post having a bushing thereon, the bushing being located between the end of the link and the dial to movably support the end of the link on the dial.

5. The watch movement display mechanism of claim 1, 2 or 4, wherein the central portion of the connection pad is formed with a circular driving hole, the driving unit includes a cam, the cam is embedded in the circular driving hole, and the cam rotates in the circular driving hole to drive the connection pad to swing.

6. The watch movement display mechanism of claim 5, wherein the connection pad is provided with a first connection hole, and the end of the connecting rod is fixedly connected with the first connection hole on the connection pad.

7. The watch movement display mechanism of claim 6, wherein the connecting disc is provided with at least one second connecting hole, the first connecting hole and the second connecting hole are arranged around the circular driving hole, the number of the connecting rods is matched with that of the first connecting hole and the second connecting hole, and the end parts of the connecting rods are movably connected with the corresponding second connecting holes on the connecting disc.

8. The watch movement display mechanism of claim 5, wherein the drive unit comprises a drive bearing disposed on the dial, the cam is coupled to the drive bearing, the drive bearing is coupled to the power assembly, and the power assembly rotates the cam via the drive bearing.

9. The watch movement display mechanism of claim 8, wherein the power component is an automatic hammer, hour wheel, minute wheel, or second wheel.

10. The watch movement display mechanism of claim 5, wherein a cover plate is provided over the circular drive aperture of the interface plate, the cover plate being coupled to the cam to limit axial movement of the interface plate.

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