JP2005054822A - Transmission device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a transmission device that is excellently decorated and rationally configured. <P>SOLUTION: A transmission device for transmitting the power to a driven part 200 is provided with a first transparent plate 210 on which the driven part is attached to be driven, a second transparent plate 320 opposed by the first transparent plate and engaged with the driven part, and a driving means 600 for revolving the second transparent plate around the first transparent plate. The driven part is driven in conjugation with the revolution of the second transparent plate. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a transmission device excellent in decorativeness, and is suitably used as a device for driving a watch pointer, a decorative ornament, and the like.
[0002]
[Prior art]
In the transmission device used for decoration, the visual fun is important. For example, Patent Document 1 proposes a timepiece in which a pointer is provided on a transparent plate and configured so that a mechanism for driving the pointer is not apparent from the appearance. In other words, it is intriguing for those who watch the clock why the hands move. In the case of the timepiece described in Patent Document 1, a ratchet mechanism combined with a transparent plate is employed as means for driving the hands.
[0003]
[Patent Document 1] Japanese Utility Model Publication No. 49-18563 [0004]
[Problems to be solved by the invention]
Now, with regard to this type of transmission device, it is important to improve the driving efficiency of the driven part and the degree of freedom of design, etc. There is also a need for further structural ingenuity with regard to the timepiece configured so as not to take these various conditions into consideration. The present invention has been made in view of such circumstances, and an object of the present invention is to provide a transmission device that is excellent in decorativeness and reasonably configured.
[0005]
[Means for Solving the Problems]
The invention described in claim 1 of the present application is a transmission device for transmitting power to a driven part, a first transparent plate on which the driven part is drivably mounted, and facing the first transparent plate and the driven part. A second transparent plate engaged with the portion, and a driving means for revolving the second transparent plate relative to the first transparent plate, wherein the driven portion is driven in conjunction with the revolution of the second transparent plate. The transmission device is configured to According to such a configuration, a transmission device having excellent decorativeness and a rational configuration can be obtained. That is, according to the transmission device of the present invention, the second transparent plate revolves with respect to the first transparent plate, and the driven part is driven in conjunction with the revolution of the second transparent plate. Since the first transparent plate and the second transparent plate are transparent, the mechanism for driving the driven parts is not apparent from the appearance. In other words, for those who see the transmission, it is intriguing why the driven part moves. In addition, when the driven part is interlocked with the second transparent plate, power can be continuously and smoothly transmitted to the driven part. If a ratchet mechanism is employed, the driven part must move intermittently. However, according to the present invention, it is possible to obtain a continuous driven part movement.
[0006]
The invention described in claim 2 of the present application is the transmission apparatus according to claim 1, wherein the drive means includes a rotation drive unit that pivotally supports the second transparent plate. That is, when the second transparent plate is revolved with respect to the first transparent plate, the drive means may be provided with a rotation drive unit, and the second transparent plate may be pivotally supported by the rotation drive unit. The second transparent plate revolves at the same cycle as the rotation of the rotation drive unit.
[0007]
The invention described in claim 3 of the present application is the transmission apparatus according to claim 1 or 2, wherein the transmission apparatus includes a roller that pivotally supports the second transparent plate. That is, when revolving a 2nd transparent plate with respect to a 1st transparent plate, it is good to provide a roller in the principal point of a transmission device, and to support the 2nd transparent plate to the roller. According to the present invention, the revolution of the second transparent plate can be further stabilized.
[0008]
The invention described in claim 4 of the present application is the transmission device according to any one of claims 1 to 3, wherein the transmission device includes a frame body that covers a moving region of an edge portion of the second transparent plate. . That is, by covering the movement region of the edge of the second transparent plate, it is possible to hide that the second transparent plate is revolving with respect to one transparent plate, and the mechanism for driving the driven portion is understood. It is effective in avoiding it.
[0009]
According to a fifth aspect of the present invention, in any one of the first to fourth aspects, the transmission device includes a case body that houses the driving means, and the second transparent plate is disposed inside the case body. The transmission device includes an extending portion that extends, and the drive means is configured to operate the extending portion of the second transparent plate. That is, the drive means may be configured to revolve the second transparent plate by operating an extension portion that extends into the case that houses the drive means. According to the present invention, simplification of the layout of the second transparent plate and the driving means is achieved.
[0010]
The invention described in claim 6 of the present application is the transmission device according to any one of claims 1 to 5, wherein the transmission device includes a third transparent plate having the second transparent plate interposed between the transmission device and the first transparent plate. It is a transmission device of composition. That is, when dust, dust or the like adheres and the second transparent plate becomes dirty, it may be revealed that the second transparent plate is revolving with respect to the first transparent plate. It is also conceivable that the bystander touches the second transparent plate with his hand and confirms that it is revolving. In this regard, according to the third transparent plate, these situations can be prevented by protecting the second transparent plate from the outside.
[0011]
The invention described in claim 7 of the present application is the transmission device according to any one of claims 1 to 6, wherein the transmission device includes a fourth transparent plate with the first transparent plate interposed between the transmission plate and the second transparent plate. This is a transmission device. That is, the first transparent plate on which the driven part is drivably mounted may be protected from the outside by the fourth transparent plate.
[0012]
According to an eighth aspect of the present invention, in any one of the first to seventh aspects, the transmission device includes a driving load reducing unit that reduces a load of the driving unit with respect to a load of the second transparent plate. It is a transmission device. That is, by reducing the load of the driving unit with respect to the load of the second transparent plate, the power of the driving unit can be saved, which is more rational. For example, when a relatively large second transparent plate is revolved in the vertical direction, the power required to lift the load on the second transparent plate becomes very large, and it is difficult to maintain a constant speed. However, according to the present invention, it is possible to avoid such inconvenience and to secure more stable revolution of the second transparent plate.
[0013]
The invention described in claim 9 of the present application is the transmission device according to any one of claims 1 to 8, wherein the transmission device includes a revolution stabilization means for stabilizing the revolution of the second transparent plate. . That is, the second transparent plate may have a slight backlash or the like with its revolution. In such a case, it is more reasonable to stabilize the revolution by providing revolution stabilization means. The backlash of the second transparent plate may occur when, for example, the second transparent plate revolves up and down, and the second transparent plate changes from rising to falling or from falling to rising.
[0014]
The invention described in claim 10 of the present application is the transmission apparatus according to any one of claims 1 to 9, wherein the driven portion is a pointer of a timepiece. That is, the present invention is a transmission device that is excellent in decorativeness and is rationally configured, and can be suitably used as a device that drives the hands of a watch. According to the present invention, a mysterious timepiece intriguing why the hands move is obtained.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Below, the 1st example of this invention is demonstrated based on FIG. 1 thru | or FIG. The transmission device 1 of the present example shown in FIGS. 1 to 6 transmits power to a pointer mechanism 200 of a timepiece that rotates the hour hand 210 and the minute hand 220 at respective predetermined speeds. And the time display part 100 which has arrange | positioned the pointer mechanism part 200 is transparent, and it has the structure which can see through from the near side from the near side of the transmission device 1, and the near side from the far side. It can be seen at a glance that a gear or the like is not connected to the pointer mechanism unit 200. That is, it becomes a mysterious thing for the person who looks at the transmission apparatus 1 to be intrigued why the pointer moves.
[0016]
The transmission device 1 includes a timepiece mechanism portion 200 of a watch as a driven portion, a first transparent plate 310 on which the pointer mechanism portion 200 is drivably mounted, and the first transparent plate 310 facing the first transparent plate 310 and engaging with the pointer mechanism portion 200. The first transparent plate 310 is interposed between the second transparent plate 320, the third transparent plate 330 having the second transparent plate 320 interposed between the second transparent plate 320, and the second transparent plate 320. 4 transparent plates 340, a frame body 400 that covers the moving region of the edge of the second transparent plate 320, a plurality of rollers 500 that pivotally support the second transparent plate 320, and the second transparent plate 320 as the first transparent plate A driving unit 600 that revolves with respect to 310 and a case body 700 that houses the driving unit 600 are provided. Each of the transparent plates 310, 320, 330, and 340 is a transparent or translucent plate material made of glass or resin. Spacers 301 are provided between the first transparent plate 310 and the third transparent plate 330 at appropriate intervals. The frame body 400 covers the moving region of the second transparent plate 320 and supports the edge portions of the first transparent plate 310, the third transparent plate 330, and the fourth transparent plate 340. The time display unit 100 is a part surrounded by the frame 400 and is in a state where the transparent plates 310, 320, 330, and 340 are overlapped. Any one of the first transparent plate 310, the third transparent plate 330, and the fourth transparent plate 340 is provided with a time indicator portion 101. The pointer mechanism 200 is driven in conjunction with the revolution of the second transparent plate 320.
[0017]
In the case of this example, the first transparent plate 310, the second transparent plate 320, and the third transparent plate 330 are provided with extending portions 311, 321, 331 that extend inside the case body 700, respectively.
[0018]
The case body 700 has the frame body 400 mounted thereon, and includes a communication portion 710 that allows the inside of the case body 700 and the inside of the frame body 400 to communicate with each other, and a support column 720 that supports the frame body 400. The extending portions 311, 321, and 331 of the first transparent plate 310, the second transparent plate 320, and the third transparent plate 330 extend through the communication portion 710 and extend into the frame body 700.
[0019]
The driving means 600 is rotatably attached to a movement 610 for a watch incorporating a motor, a train wheel mechanism 620 connected to the movement 610, and an extending portion 331 of the third transparent plate 330, and the second transparent plate. The rotation drive unit 630 that pivotally supports the extension part 321 of 320 and the needle aligner 640 meshed with the main part of the train wheel mechanism 620 are provided, and the power (that is, torque) output from the movement 610 is the train wheel mechanism 620. The rotation drive unit 630 is configured to revolve the second transparent plate 320 in the vertical direction by operating the extending portion 321 of the second transparent plate 320. The second transparent plate 320 rotates once per hour. When the hand aligner 640 is manually rotated, the rotation driving unit 630 is rotated according to the rotation. Specifically, the needle aligner 640 is used when the positions of the hour hand 210 and the minute hand 220 are arbitrarily adjusted.
[0020]
Each roller 500 that pivotally supports the second transparent body 320 is mounted between the first transparent plate 310 and the third transparent plate 330, respectively. In the illustrated example, a plurality of rollers 500 covered by the frame body 400 and a single roller 500 located inside the case body 700 are provided. Each roller 500 is not visible from the outside.
[0021]
The interval between the rotation shaft 631 of the rotation drive unit 630 and the pivot shaft 632 of the second transparent plate 320 is set equal to the interval between the rotation shaft 501 of the roller 500 and the pivot shaft 502 of the second transparent plate 320. ing. The pivot shaft 632 of the rotation drive unit 630 and the pivot shaft 502 of the roller 500 rotate with the same period and the same radius (in the directions of arrows A and B in FIG. 5). The second transparent plate 320 revolves with respect to the first transparent plate 310 (in the direction of arrow C in FIG. 5) as the pivot shaft 632 of the rotation drive unit 630 and the pivot shaft 520 of each roller 500 rotate.
[0022]
The pointer mechanism unit 200 is provided so as to be rotatable with respect to the first transparent plate 310 and supports the rotation input unit 230 that pivotally supports the second transparent plate 320, and the minute hand that supports the minute hand 220 and rotates synchronously with the rotation input unit 230. It includes a pipe 240, a date wheel 250 that decelerates the rotation of the pointer pipe, and an hour hand pipe 260 that includes a gear 261 that supports the hour hand 210 and meshes with the date wheel 250. The distance between the rotation shaft 231 and the pivot shaft 232 of the second transparent plate 320 in the rotation input unit 230 is the distance between the rotation shaft 631 and the pivot shaft 632 of the second transparent plate 320 in the rotation drive unit 630, and the roller 500. Is set equal to the distance between the rotation shaft 501 and the pivot shaft 502 of the second transparent plate 320. The pivot shaft 232 of the rotation input unit 230 rotates with the same period and the same radius as the pivot shaft 632 of the rotation drive unit 630 and the pivot shaft 502 of the roller 500. The positional relationship among the rotation drive unit 630, the roller 500, and the rotation input unit 230 is set so that the revolution of the second transparent plate 320 is not squeezed. The hour hand rotates once per 12 hours, and the minute hand rotates once per hour.
[0023]
In addition, when transporting the transmission device 1 or the like, there may be a case where damage or failure due to the influence of vibration is caused. In order to prevent such breakage or failure, for example, as shown in FIG. The lock means 800 shown in the figure avoids the influence of vibration by inserting rods into holes provided in the required members and suppressing their relative movement. Or you may comprise so that a female thread part may be formed in a required member and a rod may be screwed together in this. The transmission device 1 is used after the rod body is pulled out.
[0024]
As described above, this example is a transmission device 1 that is excellent in decorativeness and reasonably configured, and can be suitably used as a device that drives the hands 210 and 220 of the timepiece. In particular, in this example, the hour hand 210 and the minute hand 220 are driven. However, the second hand can be further driven by rotating the second transparent plate 320 once per minute. The configuration of this example can also be applied to an automatic correction clock that receives time information such as a standard time radio wave and automatically corrects the display time by the pointer based on the time information. In the case of an automatically corrected timepiece, a receiving means for receiving time information, a microcomputer storing a predetermined program for controlling the movement 610, and the like are provided.
[0025]
Furthermore, the configuration of each part in the present example can be appropriately changed in design within the technical scope described in the claims, and is of course not limited to the illustrated example. For example, as for the shape of the frame 400 and the transparent plates 310, 320, 330, and 340, various forms are possible as shown in FIGS.
[0026]
In addition to the pointer mechanism 200, the driven part can be configured to drive a decorative ornament or the like. Further, a plurality of driven parts may be provided on the first transparent plate 310 and each driven part may be engaged with the second transparent plate 320 to drive the plurality of driven parts. Alternatively, it is also possible to arrange a plurality of pairs of the first transparent plate 310 and the second transparent plate 320 provided with driven parts.
Furthermore, it is also possible to provide a second transparent plate 320 before and after the first transparent plate 310 so that one or a plurality of driven parts are driven by the plurality of second transparent plates 320. In the case of providing a plurality of second transparent plates 320, it is possible to obtain a more complicated driven form of the driven part by setting the revolution speed and revolution magnitude of each second transparent plate 320 to be different from each other. It becomes.
[0027]
Next, a second specific example of the present invention will be described with reference to FIGS. As shown in FIG. 10, the transmission device 1 of this example includes a driving load reducing unit 900 that reduces the load of the driving unit 600 with respect to the load of the second transparent plate 320. A support 302 is installed between the extending portion 311 of the first transparent plate 310 and the extending portion 331 of the third transparent plate 330. The driving load reducing means 900 includes a vertical slide shaft 901 provided on the support 302, a weight 902 that can be moved up and down along the slide shaft 901, and an extension of the first transparent plate 310. A pulley 903 provided between the portion 311 and the extending portion 331 of the third transparent plate 330, a support member 905 provided at an essential point of the extending portion 321 of the second transparent plate 320, and a pulley 903. A string body 904 that rotates and connects the weight 902 and the support member 905 is provided. The slide shaft 901, the weight 902, the pulley 903, the string 904, and the support member 905 are provided symmetrically so as to ensure balance. The load on the driving unit 600 is reduced by canceling the load on the second transparent plate 320 and the load on the weight 902. Further, when the transmission device 1 is transported, the drive load reducing means 900 may be damaged or broken due to the influence of vibration. In order to prevent such breakage and failure, for example, as shown in FIG. The second locking means 810 shown in the figure is configured to screw a male screw part into a female screw part provided on the support 302, and the male screw part holds the weight 902 at the uppermost movement region of the slide shaft 901. It has become. The transmission device 1 is used after removing the male screw part. The other basic configurations are the same as those in the specific example described above.
[0028]
Thus, by reducing the load of the driving unit 600 with respect to the load of the second transparent plate 320, the power of the driving unit 600 can be saved, which is more rational. In addition to the configuration shown in FIG. 10, the configuration of the drive load reducing means 900 may be various configurations as shown in FIGS.
[0029]
The driving load reducing means 900 shown in FIG. 12 includes a shaft body 906 provided between the extending portion 311 of the first transparent plate 310 and the extending portion 331 of the third transparent plate 330, and the second transparent plate 320. A support member 905 provided at a key point of the extending portion 321 and an elastic member 907 (a coil spring in the illustrated example) that connects the shaft body 906 and the support member 905 are provided. The load on the driving unit 600 is reduced by the elastic member 907 urging the second transparent plate 320 upward with its elastic force.
[0030]
The driving load reducing means 900 shown in FIG. 13 is pivotally supported by a shaft body 908 provided between the extending portion 311 of the first transparent plate 310 and the extending portion 331 of the third transparent plate 330, and the shaft body 908. An insulator 909, a roller 910 provided at one end of the insulator 909 and in contact with the lower end of the extended portion 321 of the second transparent plate 320, and a weight 911 provided at the other end of the insulator 909 It is equipped with. The lower end of the extending portion 321 of the second transparent plate 320 has a predetermined shape that contacts the roller 910. The load on the driving unit 600 is reduced by canceling the load on the second transparent plate 320 and the load on the weight 911.
[0031]
The driving load reducing means 900 shown in FIG. 14 is pivotally supported by a shaft body 908 provided between the extending portion 311 of the first transparent plate 310 and the extending portion 331 of the third transparent plate 330, and the shaft body 908. And the roller 910 provided at one end of the insulator 909 and abutting the lower end of the extended portion 321 of the second transparent plate 320, and the shaft body 912 provided at the other end of the insulator 909. And a shaft body 913 provided on the support 302 and an elastic body 914 that couples the shaft bodies 912 and 913. The load on the driving unit 600 is reduced by the elastic member 914 biasing the second transparent plate 320 upward by its elastic force.
[0032]
Next, a third specific example of the present invention will be described with reference to FIG. The transmission apparatus 1 of this example includes a revolution stabilization means 915 that stabilizes the revolution of the second transparent plate 320. The revolution stabilizing means 915 shown in the figure is provided with a first sliding contact body 916 and a second sliding contact body 917 that are in sliding contact with the extending portion 321 of the second transparent plate 320, so that second rotation accompanying the revolution is performed. The transparent plate 320 is configured to prevent subtle backlash. The first sliding contact body 916 is supported by the extending portion 311 of the first transparent plate 310 or the extending portion 331 of the third transparent plate 330. On the other hand, the second sliding contact body 917 is configured to urge the second transparent plate 320 toward the first sliding contact body 916 side by the elastic force of the elastic member 918 (the illustrated example is a coil spring). The elastic member 918 is housed in a cylinder 919 supported by the extending portion 331 of the third transparent plate 330 or the extending portion 311 of the first transparent plate 310, and the second sliding contact body 917 includes the cylinder It is supported by a rod 920 that is movable with respect to 919. The elastic force of the elastic member 918 is adjusted by moving the position of the slider portion 921 housed in the cylinder 919. The slider portion 921 sandwiches the elastic member 918 between the rod 920 and the position thereof is configured to rotate by moving a male screw component 922 screwed into the bottom portion of the cylinder 919.
[0033]
Thus, the transmission apparatus 1 of this example is provided with the revolution stabilization means 915 that stabilizes the revolution of the second transparent plate 320. In the case of this example, since the second transparent plate 320 revolves in the vertical direction, when the second transparent plate 320 turns from ascending to descending or descending to ascending, due to the influence of backlash in the train wheel mechanism 620 and the like, A case where subtle backlash occurs on the second transparent plate 320 can be considered. The revolution stabilization means 915 prevents such backlash of the second transparent plate 320. It should be noted that the configuration of the revolution stabilizing means 915 for stabilizing the revolution of the second transparent plate 320 can be appropriately changed in design and is not limited to the illustrated example.
[0034]
【The invention's effect】
As described above, according to the present invention, in the transmission device that transmits power to the driven part, the first transparent plate on which the driven part is drivably mounted and the first transparent plate face each other and engage with the driven part. The transmission device includes a second transparent plate and a driving unit that revolves the second transparent plate with respect to the first transparent plate, and the driven portion is driven in conjunction with the revolution of the second transparent plate. According to such a configuration, it is possible to obtain a transmission device that is excellent in decorativeness and rationally configured.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a transmission device according to a specific example of the present invention.
FIG. 2 is a perspective front view showing a transmission device according to a specific example of the present invention.
FIG. 3 is a perspective top view showing a transmission device according to a specific example of the present invention.
FIG. 4 is a perspective side view showing a transmission device according to a specific example of the present invention.
FIG. 5 is an enlarged view of a main part of FIG. 2 according to a specific example of the present invention, and a perspective front view showing a drive unit.
6 is an enlarged view of a main part of FIG. 4 according to a specific example of the present invention, and is a perspective side view showing the periphery of a driven part. .
FIG. 7 is a perspective side view showing a transmission device according to a specific example of the present invention.
FIG. 8 is a perspective view showing a transmission device according to a specific example of the present invention.
FIG. 9 is a perspective view showing a transmission device according to a specific example of the present invention.
FIG. 10 is a perspective front view showing drive load reducing means according to a specific example of the present invention.
FIG. 11 is a perspective front view showing drive load reducing means according to a specific example of the present invention.
FIG. 12 is a perspective front view showing drive load reducing means according to a specific example of the present invention.
FIG. 13 is a perspective front view showing drive load reducing means according to a specific example of the present invention.
FIG. 14 is a perspective front view showing drive load reducing means according to a specific example of the present invention.
FIG. 15 is a perspective side view showing revolution stabilization means according to a specific example of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Transmission device 100 Time display part 101 Indicator part 200 Pointer mechanism part 210 Hour hand 220 Minute hand 230 Rotation input part 231 Rotating shaft 232 Pivoting shaft 240 Minute hand pipe 250 Date wheel 260 Hour hand pipe 261 Gear 301 Spacer 302 Support 310 First Transparent plate 311 Extending portion 320 Second transparent plate 321 Extending portion 330 Third transparent plate 331 Extending portion 340 Fourth transparent plate 400 Frame 500 Roller 501 Rotating shaft 502 Pivoting shaft 600 Drive means 610 Movement 620 Train train mechanism 630 Rotation drive unit 631 Rotation shaft 632 Pivot shaft 640 Needle alignment kana 700 Case body 710 Communication unit 720 Strut 800 Lock unit 810 Second lock unit 900 Drive load reduction unit 901 Slide shaft 902 Weight 903 Pulley 904 String body 905 Support member 906 Shaft body 907 Elastic body 908 Shaft body 90 Lever 910 roller 911 weight 912 shaft 913 shaft 914 elastic member 915 revolves stabilization means 916 first slide contact member 917 second slide contact member 918 elastic member 919 cylinder 920 rod 921 slider 922 male thread part

Claims (10)

In the transmission that transmits power to the driven part,
A first transparent plate on which the driven part is drivably mounted;
A second transparent plate facing the first transparent plate and engaged with the driven part;
Driving means for revolving the second transparent plate relative to the first transparent plate;
The transmission device, wherein the driven part is driven in conjunction with the revolution of the second transparent plate. The transmission device according to claim 1, wherein the driving unit includes a rotation driving unit that pivotally supports the second transparent plate. The transmission device according to claim 1 or 2, further comprising a roller that pivotally supports the second transparent plate. The transmission device according to any one of claims 1 to 3, further comprising a frame body that covers a moving region of an edge of the second transparent plate. The transmission device includes a case body that houses the driving means,
The second transparent plate includes an extending portion that extends into the case body,
The transmission device according to any one of claims 1 to 4, wherein the driving means operates an extending portion of the second transparent plate. 6. The transmission device according to claim 1, further comprising a third transparent plate having the second transparent plate interposed between the first transparent plate and the first transparent plate. The transmission device according to any one of claims 1 to 6, further comprising a fourth transparent plate having the first transparent plate interposed between the second transparent plate and the second transparent plate. The transmission apparatus according to any one of claims 1 to 7, further comprising a driving load reduction unit that reduces a load of the driving unit with respect to a load of the second transparent plate. The transmission device according to any one of claims 1 to 8, further comprising a revolution stabilization means for stabilizing the revolution of the second transparent plate. The transmission device according to claim 1, wherein the driven portion is a watch pointer.

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