JP3561669B2 - Mechanism clock - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a mechanical timepiece, and more particularly to a mechanical timepiece that moves a dial or the like at a predetermined time to make a decorative body such as a doll stored behind appear.
[0002]
[Prior art]
The clock face is composed of a plurality of divided pieces.For example, when the hour is reached, the plurality of divided pieces are moved so as to separate them, and a decorative body such as a doll housed behind the divided pieces appears to match the music. A mechanism clock for operating a lever decoration has been developed and commercialized.
[0003]
Examples of such a mechanical timepiece include those disclosed in, for example, Japanese Patent Publication No. 8-10256 and Japanese Patent Application Laid-Open No. 8-68870. In the timepiece disclosed in Japanese Patent Publication No. Hei 8-10256, the dial is formed of a substantially fan-shaped segment divided into a plurality of pieces, and at a predetermined time, these segments are turned into a petal shape. The decorative body such as a doll housed behind the dial is made visible so that it can be spread. As a driving mechanism for rotating each element piece of the divided dial, a ring-shaped rack having teeth formed on the outer periphery, a plurality of gears arranged radially outside of the rack so as to mesh with this rack And the like, and each element is fixed to the rotating shaft of the plurality of gears, and the rack is driven by a drive motor, so that the element can be freely opened and closed.
[0004]
The timepiece disclosed in Japanese Patent Application Laid-Open No. H8-68870 is formed so that the dial can be divided into upper and lower parts. At a predetermined time, the dial is separated into upper and lower parts. The ornament such as a doll housed behind can be visually checked.
[0005]
[Problems to be solved by the invention]
By the way, in the timepiece disclosed in Japanese Patent Publication No. 8-10256, a ring-shaped rack having teeth formed on the outer periphery thereof is used as a drive mechanism for rotating each element of the divided dial, Since a plurality of gears and the like are arranged radially outside the rack so as to mesh with the gear, the entire timepiece in the radial direction becomes large, and there is a problem that it is difficult to integrate components.
[0006]
In addition, each piece of the dial that is rotated and opened is only supported by the rotating shaft, and there is a problem that rattling, i.e., tilting may occur in the front-rear direction.
Furthermore, the movement range of each element forming the dial is not so noticeable because it is a range of rotation around a fixed rotation axis, and is slightly impressive in terms of unexpectedness of dynamic change. There was a problem that lacked.
[0007]
Also, in the mechanical timepiece disclosed in the above-mentioned Japanese Patent Application Laid-Open No. 8-68870, since the dial divided into two vertically separates only upward and downward, the internal decorative body can be made to appear. However, there is a problem that the change does not give a strong impression as a change in the appearance, and similarly, the change is less surprising.
[0008]
The present invention has been made in view of the above circumstances, and an object of the present invention is to make the structure of the dial, the number of parts, etc. simple, and to realize the unexpectedness of the dynamic change of the dial or the like that opens and closes the front of the decorative body. It is an object of the present invention to provide a mechanical timepiece that can provide a richer and more excellent appreciation property, maximize the movement of the decorative body in a limited space, and enhance the decorative effect.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, the present invention is a mechanical timepiece having a decorative portion which is driven by receiving a drive signal based on a designated time or a monitor signal on the back side of the dial, wherein the dial has a fixed divided piece. And a fixed boundary and a movable boundary that are divided into the movable division and the fixed division and the movable division. The movable boundary of the movable division is along the fixed boundary of the fixed division. The decorative portion includes a drive motor that rotates in a forward / reverse direction at a predetermined speed in response to a drive signal, and at least one transmission gear that transmits rotation of a rotation shaft of the drive motor. And a center decoration gear to which the rotation of the transmission gear is transmitted, and a rotation of the center decoration gear disposed around the center decoration gear to be transmitted, and one end of a rotation shaft of the dial Fixed to a movable split piece A peripheral gear for rotating the movable divided piece so as to be positioned in a predetermined area of an area extending from the inside of the defined area of the dial to the outside of the defined area according to the rotation of the center decorative gear; and The decorative body is attached to the rotating shaft of the gear, and rotates in accordance with the rotation of the center decoration gear. With the rotation, the decoration body positions at least the rear surface side area of the movable divided piece that is located when defining the dial. With a central ornament.
[0010]
Further, the present invention is a mechanical timepiece having a decorative portion which is driven by receiving a drive signal based on a designated time or a monitor signal on the back side of the dial, wherein the dial has a fixed divided piece, A movable divisional section divided into different portions of the divisional section, and a fixed boundary and a movable boundary which divide the fixed divisional section and each movable divisional section are respectively movable boundaries of the movable divisional section. Are formed in an arc shape rotatable along a fixed boundary edge of the fixed divided piece, and the decorative portion receives a drive signal and rotates in a forward / reverse direction at a predetermined speed, and a rotation of the drive motor. At least one transmission gear that transmits the rotation of the shaft, a center decoration gear to which the rotation of the transmission gear is transmitted, and the rotation of the center decoration gear that is arranged around the center decoration gear is transmitted, And of the rotation axis The end is fixed to the movable segment associated with the dial, and the movable segment is moved from the inside of the dial-shaped area to the outside of the area in accordance with the rotation of the central decoration gear. A plurality of peripheral gears that rotate so as to be located in a predetermined area, and are attached to the rotation shaft of the center decoration gear, rotate according to the rotation of the center decoration gear, and at least the character The rear surface side area of the movable divided piece located when the board is defined has a center decoration in which the decorative body is located.
[0011]
Also, in the present invention, a receiving wheel arranged coaxially with a peripheral gear for rotating the movable split piece in a predetermined engagement relationship, and the peripheral gear and the receiving wheel are connected to the center decoration gear. And a correcting means for biasing the peripheral gear in a direction of returning a shift of the backlash.
[0012]
Further, the present invention has a detecting means for detecting that the movable divided piece has reached a predetermined rotation angle position.
In the present invention, the detecting means may include a swing arm arranged to be swingable about a predetermined support shaft, and an outer peripheral edge of the center decoration gear so as to lock one end of the swing arm. And a switch which is actuated by the other end of the rocking arm and detects a predetermined position in a state where one end of the rocking arm is locked by the locking portion. Have.
[0013]
According to the present invention, when a drive signal based on a designated time or a monitor signal is supplied to the drive motor, the motor rotates to rotate the transmission gear, and the rotation of the motor is transmitted to the center decoration gear.
As a result, the center ornament rotates in a predetermined direction.
With the rotation of the central decoration gear, a plurality of peripheral gears disposed around the central decoration gear rotate in the opposite direction or the same direction as the central decoration, and accordingly, the movable divided piece of the dial also rotates.
Then, while the movable divided piece is changed from the closed state to the open state, or from the open state to the closed state, the visible portion of the rotating center decoration behind the dial changes momentarily. .
Therefore, the movement of the decorative body can be maximized in a limited space, and the decorative effect is enhanced.
[0014]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of a timepiece according to the present invention will be described with reference to the accompanying drawings. For convenience of description, some of the drawings are shown using a perspective view.
[0015]
FIGS. 1 to 4 show an embodiment of a mechanical timepiece according to the present invention. FIG. 1 is a front view of the timepiece, and FIG. FIG. 3 is a front view showing a state in which the dial is separated by a decorative portion described later, and FIG. 4 is a front view showing a state in which the movable divided piece rotates and revolves by 180 °, and FIG. FIG. 5 is a longitudinal sectional view taken along the line BB in FIG.
[0016]
The mechanical timepiece 10 according to the present embodiment includes a vertically long and elliptical case body 11 defining an outer contour, a glass plate 12 closing the front of the case body 11, and a glass holder for fixing the glass plate 12 to the case body. 13UR, 13UL, 13DR, 13DL, a character arranged above the center on the front side in the case body 11 protected by the front glass plate 12 and divided into a fixed division 141 and three movable divisions 142, 143, 144 A dial 14, a first decorative portion 15 disposed on the back side of the dial 14 to open and close the movable divided pieces 142, 143, 144, and a second decorative portion 16 provided below the dial 14. A movement 17 arranged on the back side of the first decorative portion 15 of the dial 14 (on the back side of the case body), and an hour hand 18 and a minute hand 19 driven by the movement 17; It has as components.
[0017]
The front glass plate 12 has glass holders 13UR, 13UL, 13DR, and 2 at the outer peripheral portion at 1 o'clock and 11 o'clock (two upper positions) and at 5 o'clock and 7 o'clock (two lower positions). It is fixed to the case body 11 by 13DL.
The front glass plate 12 has a frame portion 12a printed on the rear peripheral portion in black, for example.
[0018]
As shown in FIG. 5, the glass presser 13 includes a holding portion 131 for holding the front side and the back side in a predetermined region on the outer peripheral side of a portion of the front glass plate 12 supported by the supporting portion 11a of the case body 11. And a mounting boss 132 having a female screw portion formed on the back surface side of the holding portion 131, and a support portion 133 for contacting the front surface of the case body 11 at the time of mounting to maintain a stable mounting state. .
[0019]
The holding portion 131 includes a base portion 131a linearly formed continuously with the support portion 133, and a front piece portion formed at an end of the base portion 131a and positioned on the front side of the front glass plate 12 at the time of mounting. The rear piece 131b is formed in parallel with the front piece 131b at a predetermined distance from the front piece 131b, and is formed so as to substantially reach from the back side of the front glass plate 12 to the support portion 11a of the case body 11 when mounted. Section 131c.
That is, the sandwiching portion 131 is mounted such that the outer peripheral portion including the side portion of the front glass plate 12 is inserted into the groove 131d formed by the front piece 131b and the rear piece 131c with the base 131a as the bottom face. .
A mounting boss 132 is formed substantially at the center of the rear surface of the rear surface portion 131c in a direction perpendicular to the surface.
The height (length) of the boss 132 to which the thickness of the rear surface portion 131c is attached is set to substantially the same height (slightly higher) as the support portion 11a of the case body 11.
[0020]
In the case body 11, a positioning groove 11b is formed on a surface facing the rear surface of the front glass plate 12 as a positioning portion capable of accommodating the distal end of the mounting boss of the glass retainer 13. Further, the positioning groove 11b is formed. Is formed with a screw hole 11c which is a through hole.
[0021]
The mounting of the front glass plate 12 using the glass retainer 13 having such a configuration is performed as follows.
That is, the base 131a of the holding part 131 of the glass holder 13 is formed from the side of the timepiece with the supporting part 11a supporting the peripheral part on the back side of the front glass plate 12 formed on the outer peripheral part of the case body 11. The outer peripheral portion including the side portion of the front glass plate 12 is inserted into a groove 131d formed by the front piece 131b and the rear piece 131c with the bottom as a bottom.
Then, the positioning is performed with the mounting boss 131c of the glass retainer 13 housed in the positioning groove 11b formed in the case body 11.
In this state, the screw 110 having the case body 11 penetrated from the back side of the timepiece is screwed into a female thread formed on the mounting boss 132 of the glass holder 13 so that the glass holder 13 is attached to the outer peripheral portion of the case body 11. Fix it.
As a result, the periphery of the front glass plate 12 is fixed while being held by the holding portion 131 of the glass retainer 13.
In this fixed state, the supporting portion 133 of the glass holder 13 comes into contact with the front surface of the outer peripheral portion of the case body 11, so that rattling is prevented.
[0022]
The dial 14 is formed by, for example, stacking a second disk 14b having a smaller diameter than the first disk on a first disk 14a having a predetermined diameter so that the center axis thereof is aligned with the first disk 14a. The pointer shaft 20, which is driven to rotate by 17, is inserted therethrough. As described above, the pointer shaft 20 is divided into the fixed divided piece 141 including the insertion portion of the pointer shaft 20, and the three movable divided pieces 142, 143, and 144.
Further, on the dial 14, the decorative body is visually observed from the front side of the watch in a predetermined concentric region centered on the pointer shaft 20 corresponding to the rotation trajectory of the decorative body (balloon) of the first decorative portion 15 described later. A possible transparent portion 14c made of, for example, a transparent acrylic plate is formed.
[0023]
A more specific configuration of the dial 14 will be described with reference to FIGS. 6 and 7. FIG. 6 is a diagram in which only the dial portion and a part of the first decorative portion are extracted, and shows a case where the dial is in a closed state. FIG. 7 is a diagram illustrating the dial portion and the first decorative portion. FIG. 5 is a diagram in which only part of the dial is extracted, and shows a case where the dial is in an open state.
[0024]
The fixed split piece 141 extends in three directions, specifically, the two o'clock, six o'clock, and ten o'clock directions with the insertion portion of the pointer shaft 20 as a center, and has a thin center portion and gradually thicker end portions. As described above, both side edges (both border edges) have branch portions 1411, 1412, and 1413 formed in an arc shape.
A first fixed boundary edge 1414 formed on one side of the branch 1411 and one side of the branch 1412, and a second fixed boundary formed on the other side of the branch 1412 and one side of the branch 1413. The third fixed boundary edge portion 1416 formed on the other side of the portion 1415 and the branch portion 1413 and the other side of the branch portion 1411 are each formed so as to form a continuous arc.
[0025]
The movable split piece 142 is divided from the fixed split piece 141 such that the movable boundary edge portion 1421 forms an arc shape rotatable along the first fixed boundary edge portion 1414 of the fixed split piece 141.
The movable division 142 is formed such that the rotation axis of the peripheral gear, which will be described later, of the first decorative portion 15 is located at a predetermined position on the back surface, specifically, on the radially outer peripheral side of the first disk 14a or the second disk 14b. The peripheral gear, which is fixed at a predetermined position and rotates in accordance with the rotation of the center decoration gear, is rotated so as to be located in a predetermined area of an area extending from the inside of the dial-shaped area to the outside of the area.
In addition, as shown in FIGS. 6 and 7, the first disk portion 14a-1 of the movable boundary edge portion 1421 of the movable split piece 142 is in the closed state when the first disk portion 14a-1 of the first fixed boundary edge portion 1414 of the fixed split piece 141 is closed. It is formed (divided) so as to be located on the back side.
[0026]
The movable split piece 143 is divided from the fixed split piece 141 so that the movable boundary edge 1431 forms an arc shape that can rotate along the second fixed boundary edge 1415 of the fixed split piece 141.
The movable split piece 143 is formed such that the rotation axis of a peripheral gear, which will be described later, of the first decorative portion 15 is located at a predetermined position on the back surface, specifically, the radially outer peripheral side of the first disk 14a or the second disk 14b. Is fixed at a predetermined position, and is rotated by a peripheral gear that rotates in accordance with the rotation of the center decoration gear so as to be located in a predetermined region of a region extending from inside the defined region of the dial shape to outside the defined region.
In addition, as shown in FIGS. 6 and 7, the first disk portion 14a-2 of the movable boundary edge 1431 of the movable split piece 143 is in the closed state, and the first disk portion 14a-2 of the second fixed boundary edge 1415 of the fixed split piece 141 is closed. It is formed (divided) so as to be located on the back side.
[0027]
The movable split piece 144 is divided from the fixed split piece 141 so that the movable boundary edge 1441 forms an arc shape that can rotate along the third fixed boundary edge 1416 of the fixed split piece 141.
The movable division piece 144 is formed such that the rotation axis of the peripheral gear described later of the first decorative portion 15 is at a predetermined position on the back surface, specifically, the radially outer peripheral side of the first disk 14a or the second disk 14b. Is fixed at a predetermined position, and is rotated by a peripheral gear that rotates in accordance with the rotation of the center decoration gear so as to be located in a predetermined region of a region extending from inside the defined region of the dial shape to outside the defined region.
In addition, as shown in FIGS. 6 and 7, the first disk portion 14a-3 of the movable boundary edge 1441 of the movable split piece 144 is in the closed state, and the first disk portion 14a-3 of the third fixed boundary edge 1416 of the fixed split piece 141 is closed. It is formed (divided) so as to be located on the back side.
[0028]
Further, as shown in FIGS. 6 and 7, the movable divisional pieces 142, 143, and 144 are provided at the center of the fixed divisional piece 141 and on the back side of the distal end of each of the branches 1411, 1412, and 1413, respectively. Pulleys 1417, 1418, 1419, and 1420 for smoothly guiding and positioning the first disk portions 14a-1, 14a-2, and 14a-3 of the movable boundary edges 1421, 1431, and 1441 are rotatably arranged. .
[0029]
The first decorative part 15 is provided with a ferris wheel 151 as a central decoration rotatably at the center on the back side of the dial 14.
Balloon decorations 152-1, 152-2, 152-3, 152-4 as a plurality of (five in the present embodiment) decorations so as to rotate according to the rotation of the ferris wheel 151 around the ferris wheel 151. 152-5 are provided.
The first decorative portion 15 rotates the ferris wheel 151 in response to a designated time or a drive signal based on a monitor signal, and, as shown in FIG. 3, the three movable divided pieces 142, 143, and 144 of the dial 14. After turning 180 degrees to open, that is, rotating the movable segment from within the defined area of the dial shape to be outside the defined area, and then turning over, as shown in FIG. The movable split pieces 142, 143, 144 are returned to the original positions defining the dial 14.
When the dial 14 is changed from the closed state to the open state and from the open state to the closed state, as shown in FIGS. 2 and 3, the viewer 151 and the balloon decorations 152-1 and 152- as rotary decorations are provided. The appearance of 2,152-3,152-4,152-5 changes according to the rotation of the movable split pieces 142,143,144. As a result, the unexpectedness of the change as a mechanical watch increases, and excellent appreciation can be obtained.
[0030]
Hereinafter, a specific configuration of the first decorative portion 15 will be described with reference to the drawings.
[0031]
FIG. 8 is a view showing a rotation mechanism of the ferris wheel 151 and the movable divided pieces 142, 143, 144. FIG. 9 is a view as seen from the back side of the timepiece, and FIG. FIG. 3 is an enlarged longitudinal sectional view of a portion of a dial 14;
[0032]
The rotation mechanism 200 includes a driving motor 201, a first gear 202 supported by a rotation shaft of the driving motor 201, a second gear 203 meshing with the first gear 202, a third gear 204 meshing with the second gear 203, A fifth gear 206, a sixth gear 207, and a fourth gear 205 that mesh with the third gear 204, are disposed around the fourth gear 205 at an angle of 120 degrees, respectively, and each mesh with the fourth gear 205. It is constituted by seven gears 208.
The drive motor 201, the first gear 202, the second gear 203, the third gear 204, the fourth gear 205, the fifth gear 206, the sixth gear 207, and the seventh gear 208 are provided on the back of the case body 11. It is fixed or pivotally supported on a base substrate 209 arranged on the side.
[0033]
The rotation shaft of the ferris wheel 151 is fixed to the rotation shaft 205a of the fourth gear 205 as the center decoration gear.
The rotating shaft 206a of the fifth gear 206 serving as a peripheral gear is fixed at a predetermined position on the back side of the movable split piece 142 of the dial 14, and the rotating shaft 207a of the sixth gear 207 serving as the peripheral gear is connected to the movable split piece 143. And a rotating shaft 208a of a seventh gear 208 as a peripheral gear is fixed at a predetermined position on the back side of the movable split piece 144.
As described above, the predetermined position where one end of each of the rotation shafts 206a, 207a, 208a of the fifth gear 206, the sixth gear 207, and the seventh gear 208 is fixed is the position of the first disk 14a or the second disk 14b. A fifth gear 206, a sixth gear 207, and a seventh gear 208, which are peripheral gears at predetermined positions on the outer peripheral side in the radial direction and rotate in response to rotation of the fourth gear 205, which is a central decoration gear, are used. It is a position that can be rotated so as to be located in a predetermined area of the area from the inside of the defined area of the shape of the dial 14 to the outside of the defined area.
[0034]
As shown in FIGS. 9 and 10, receiving wheels 210, 211, and 212 are provided between the back surface of the fifth gear 206, the sixth gear 207, and the seventh gear 208 as the peripheral gears and the base substrate 209. Are arranged coaxially.
The center portion is formed as a winding between the upper surfaces of the receiving wheels 210, 211, 212 and the back surfaces of the fifth gear 206, the sixth gear 207, and the seventh gear 208, as shown in FIG. A rotating shaft is inserted through the winding portion 213a, and a correction spring 213 having both ends 213b and 213c locked on the back surfaces of the fifth gear 206, the sixth gear 207, and the seventh gear 208 is disposed. I have.
Bosses 210a, 211a, and 212a are formed on the upper surfaces of the receiving wheels 210, 211, and 212, and elongated holes 206b formed on the back surfaces of the fifth gear 206, the sixth gear 207, and the seventh gear 208. , 207b, 208b. Further, grooves 210b, 211b, 212b are formed in the receiving wheels 210, 211, 212 at positions facing each other at 180 °, and the fifth gear 206, the sixth gear 207, and the grooves 210b, 211b, 212b are formed in these grooves 210b, 211b, 212b. Bosses 206c, 207c, 208c formed on the back surface side of the seventh gear 208 are fitted to regulate the rotation direction of the receiving wheels 210, 211, 212. Both ends 213b and 213c of the correction spring 213 are engaged with the bosses 206c, 207c and 208c of the respective gears and the receiving wheels 210a, 211a and 212a, and the spring force is urged.
[0035]
The operation of the correction spring 213 will be further described with reference to FIG. FIG. 12 shows the case of the fifth gear 206 as an example, but the same applies to the case of the sixth gear 207 and the seventh gear 208. The fifth, sixth, and seventh gears are loosely engaged with the respective rotating shafts, and the respective rotating shafts and the respective receiving wheels are fixed. Therefore, the respective gears and the receiving wheels are engaged via the spring 213.
As shown in FIG. 12, based on the fifth gear 206, the movable split piece 142 is arranged such that the correction spring 213 acts in the direction indicated by the arrow A in the figure. Even if the movable split piece 142 ends its operation and returns to the original position for defining the dial, the gears stop while rolling up the spring 213, so that the fourth gear 205 and the fifth gear 206 for the central decoration are stopped. The deviation (return) of the backlash is corrected.
[0036]
In addition, five balloon decorations 152-1, 152-2, 152-3, 152-4, and 152 are provided on the ring 152 of the ferris wheel 151 at predetermined intervals, specifically, at intervals of 72 °. -5 is rotatably mounted.
Each of the balloon decorations 152-1, 152-2, 152-3, 152-4, and 152-5 has a pedestal portion (riding portion) G set to a predetermined weight at a lower portion. Even if the ferris wheel 151 rotates with the rotation of, the pedestal portion G is configured to always maintain the normal posture as shown in FIGS. 1 to 3 by its own weight.
[0037]
Further, in the mechanical timepiece according to the present embodiment, it is detected that the movable divided pieces 142, 143, 144 are rotated to reach a predetermined rotation angle position (180 ° rotation or 90 ° rotation), and the like. As shown in (1), a first detector 300 and a second detector 400 are provided.
[0038]
Specifically, for example, as shown in FIG. 13, the first detection unit 300 forms a gently inclined engagement at a predetermined position on the outer peripheral part of the fourth gear 205 serving as the center decoration gear, excluding the ring teeth. A tapered recess 301 as a part is formed, and a first swing arm 303 is arranged on the base substrate 209 so as to be swingable with respect to a support shaft 302 formed on the base substrate 209. The one end 303a is provided with an engagement pin 304 that passes through an opening (not shown) formed in the base substrate 209 and reaches the fourth gear 205.
The other end 303 b of the first swing arm 303 can be engaged with a switch lever 305 a of the first switch 305 fixed to the base substrate 209.
[0039]
The first detection unit 300 having the first swing arm 303, the tapered concave portion 301, the first switch 305, and the like has the fourth gear 205 or the movable divided pieces 142, 143, and 144 of the dial 14 in the hour mode. , It is detected that it has reached the predetermined rotation angle position, or that it has returned to the closed state, that is, the position immediately before the rest position. That is, when the fourth gear 205 rotates and the engagement pin 304 of the first swing arm 303 enters the tapered recess 301, the other end 303 b of the first swing arm 303 is moved to the switch lever of the first switch 305. The first switch 305 is turned off when the pressing force by the detachment from the 305a or the other end 304b is reduced, and the rotation of the drive motor 201 is stopped.
When the first swing arm 303 swings in the reverse direction, the other end portion 303b again engages or presses the switch lever 305a of the first switch 305, and the first switch 305 is turned on.
[0040]
Further, in the outer peripheral region of the back surface of the base substrate 209 and in a region 90 ° away from the support shaft 302 by a central angle with respect to the above-described support shaft 302, a second detection unit 400 is provided as shown in parentheses in FIG. .
In the second detection unit 400, a second swing arm 402 is disposed so as to be swingable with respect to a support shaft 401 formed on a base substrate 209, and one end 402a of the second swing arm 402 is attached to the base substrate 209. An engagement pin 403 is provided to pass through an opening (not shown) formed in 209 and reach the fourth gear 205.
Further, the other end 402 b of the second swing arm 402 can be engaged with a switch lever 404 a of a second switch 404 fixed to the base substrate 209.
[0041]
The second detection unit 400 having the second swing arm 402, the tapered recess 301 shared with the first detection unit 300, the second switch 403, and the like is used in the display mode in a case where the display is intended for consumers. It is detected that the four gears 205 or the movable divided pieces 142, 143, 144 of the dial 14 have reached a predetermined rotation angle position (a position rotated by approximately 90 ° shown in FIG. 2).
That is, when the fourth gear 205 rotates and the engaging pin 403 of the second swing arm 402 enters the tapered recess 301, the other end 402 b of the second swing arm 402 is moved to the switch lever of the second switch 404. When the second switch 404 is turned off when the pressing force by the detachment from the other end portion 404a or the other end portion 402b is reduced, and the dial 14 is rotated and revolved approximately 90 ° from the closed state and opened on both sides, the driving motor The rotation of the motor 201 is stopped.
[0042]
In the second decorative portion 16, a background building group 161 is formed in the center of the lower portion of the dial 14, for example, by stamping on the front and back surfaces of a transparent acrylic plate.
[0043]
Next, an operation in the hour mode of the mechanical timepiece according to the present embodiment will be described.
As shown in FIG. 1, when the dial 14 (141 to 144) is in a closed state, that is, in a rest position, at a predetermined time, for example, at the hour, a drive signal is issued by a control unit (not shown) as control means. Then, the drive motor 201 rotates in one direction and is transmitted to the fourth gear 205 serving as the center decoration gear via the first to third gears 202 to 204.
Accordingly, the fourth gear 205 starts rotating in a predetermined direction, for example, a counterclockwise direction, and the ferris wheel 151 starts rotating in a counterclockwise direction.
[0044]
With the rotation of the fourth gear 205, the engagement pin 304 of the first swing arm 303 of the first detection unit 300 comes out of the tapered recess 301, and the first swing arm 303 swings, and the other end. The portion 303b engages or presses the switch lever 305a of the first switch 305, and the first switch 305 is turned on.
[0045]
Further, the rotation of the fourth gear 204 is transmitted to the fifth gear 206, the sixth gear 207, and the seventh gear 208.
As a result, the fifth gear 206, the sixth gear 207, and the seventh gear 208 rotate clockwise, and the movable divided pieces 142, 143, and 144 also start rotating clockwise.
[0046]
Then, the movable split pieces 142, 143, and 144 revolve 90 degrees as shown in FIG. 2 and further rotate to reach a position rotated 180 degrees as if the top and bottom were reversed as shown in FIG.
Between the closed state and the opened state, the balloon decorations 152-1, 152-2, 152-3, 152-4, and 152-5 of the ferris wheel 151 rotating behind can be seen from time to time. And change.
[0047]
As described above, when the movable split pieces 142, 143, and 144 reach the positions where they have revolved by 180 °, the engagement pins 304 of the first swing arm 302 of the first detection unit 300 are moved to the tapered recesses of the fifth gear 205. It enters 301 and turns off the first switch 305.
After that, the output of the drive signal is stopped by the control unit as the control means, and the operation of the drive motor 201 is stopped.
Then, a drive signal for instructing the drive motor 201 that has been once stopped to perform reverse rotation is output to the drive motor 201.
As a result, the movable split pieces 142, 143, and 44 are rotated counterclockwise to return to the original position defining the dial 14, as shown in FIG.
[0048]
At this time, in the first detection unit 300, when the fourth gear 205 rotates and the engagement pin 304 of the first swing arm 303 enters the tapered recess 301, the other end of the first swing arm 303 303b is detached from the switch lever 305a of the first switch 305 or the pressing force of the other end 304b is reduced, and the first switch 305 is turned off. Thus, the output of the drive signal by the control unit (not shown) is stopped, and the rotation of the drive motor 201 is stopped.
[0049]
With the above operation, the mechanism operation in the hour mode ends, and the normal operation of the mechanism clock is performed.
[0050]
Next, the operation of the mechanical timepiece according to the present embodiment in the exhibition mode will be described.
In this case, when the dial 14 (141 to 144) is in the closed state, that is, in the rest position, a mode switch (not shown) arranged on the back surface of the fixed plate is switched from the normal mode to the exhibition mode.
As a result, a drive signal is issued by a control unit (not shown), and the drive motor 201 rotates in one direction, and is transmitted to the fourth gear 205 serving as a center decoration gear via the first to third gears 202 to 204. Is transmitted.
Accordingly, the fourth gear 205 starts rotating in a predetermined direction, for example, a counterclockwise direction, and the ferris wheel 151 starts rotating in a counterclockwise direction.
[0051]
With the rotation of the fourth gear 205, the engagement pin 304 of the first swing arm 303 of the first detection unit 300 comes out of the tapered recess 301, and the first swing arm 303 swings, and the other end. The portion 303b engages or presses the switch lever 305a of the first switch 305, and the first switch 305 is turned on.
[0052]
The rotation of the fourth gear 205 is transmitted to the fifth gear 206, the sixth gear 207, and the seventh gear 208.
As a result, the fifth gear 206, the sixth gear 207, and the seventh gear 208 rotate clockwise, and the movable divided pieces 142, 143, and 144 also start rotating clockwise.
[0053]
Then, each of the movable divided pieces 142, 143, and 144 rotates to reach a position rotated by 180 degrees as shown in FIG.
Between the closed state and the opened state, the balloon decorations 152-1, 152-2, 152-3, 152-4, and 152-5 of the ferris wheel 151 rotating behind can be seen from time to time. And change.
[0054]
As described above, when the movable divided pieces 142, 143, and 144 reach the positions where they have revolved by 180 °, the engagement pins 403 of the second swing arm 401 of the second detection unit 400 are moved to the tapered recesses of the fourth gear 205. 301, the first switch 404 is turned off.
After that, the output of the drive signal is stopped by the control unit as the control means, and the operation of the drive motor 201 is stopped.
As a result, a consumer or the like can surely confirm one mode of the mechanism.
[0055]
Further, when the mode is changed from the exhibition mode to the above-mentioned hour mode by the mode change switch, similarly to the case of the above-mentioned hour mode, when the movable divided pieces 142, 143, and 144 reach the positions where they have revolved by 180 °, The engagement pin 304 of the first swing arm 302 of the first detection unit 300 enters the tapered recess 301 of the fourth gear 205, and turns off the first switch 305.
After that, the output of the drive signal is stopped by the control unit as the control means, and the operation of the drive motor 201 is stopped.
Then, a drive signal for instructing the drive motor 201 that has been once stopped to rotate in the reverse direction is output to the drive mode 201.
As a result, the movable split pieces 142, 143, and 44 are rotated counterclockwise to return to the original position defining the dial 14, as shown in FIG.
[0056]
At this time, in the first detection unit 300, when the fourth gear 205 rotates and the engagement pin 304 of the first swing arm 303 enters the tapered recess 301, the other end of the first swing arm 303 303b is detached from the switch lever 305a of the first switch 305 or the pressing force of the other end 304b is reduced, and the first switch 305 is turned off. Thus, the output of the drive signal by the control unit (not shown) is stopped, and the rotation of the drive motor 201 is stopped.
[0057]
As described above, according to the present embodiment, the dial 14 has the center shaft portion through which the pointer shaft 20 rotationally driven by the movement 17 is inserted, and the fixed divided piece 141 including the insertion portion of the pointer shaft 20. The fertilizer wheel 151 is divided into three movable divided pieces 142, 143, and 144 and receives a drive signal based on a designated time or a monitor signal. After the three movable divided pieces 142, 143, 144 are rotated by 180 ° to be in an open state, that is, after the movable divided pieces are rotated from within the defined area of the dial shape to be positioned outside the defined area, Since the first decorative portion 15 is provided which is reversed and returns the movable divided pieces 142, 143, 144 to the original position for defining the dial 14, a surprising change is obtained and excellent appreciation is obtained. Ri there is the advantage that the clock can be realized.
[0058]
In the first decorative portion 15, a predetermined engagement is provided between the base substrate 209 and the rear surfaces of the fifth gear 206, the sixth gear 207, and the seventh gear 208 for rotating the movable divided pieces 142, 143, and 144. The receiving wheels 210, 211, 212 are arranged coaxially in a cooperative relationship, the winding shaft 213a is inserted through the rotating shaft, and both ends 213b, 213c are the rear surfaces of the fifth gear 206, the sixth gear 207, and the seventh gear 208. Since the correction spring 213 locked on the side is arranged, the backlash of the fourth gear 205 for the center decoration and the fifth gear 206, the sixth gear 207, and the seventh gear 208 for the periphery (return). ) Can be corrected.
[0059]
Further, in the present embodiment, a holding portion 131 for holding the front side and the back side in a predetermined region on the outer peripheral side from a portion supported by the support portion 11a of the case body 11 of the front glass plate 12, and a holding portion 131 A glass press 13 having a mounting boss 132 having a female screw portion formed on the back side of the case body and a support portion 133 for abutting on the front surface of the case body 11 during mounting to maintain a stable mounting state is provided. 11, a positioning groove 11b is formed on a surface of the front glass plate 12 opposite to the back surface side as a positioning portion capable of accommodating the tip of the mounting boss of the glass retainer 13, and a central portion of the positioning groove 11b is A screw hole 11c which is a through hole is formed, and a screw 110 is screwed into a screwing portion of a mounting boss 132 of the glass retainer 13 from the back surface side of the case body 11, thereby forming a glass. Since so even fix the 13 with respect to the case body 11, it is possible to set the glass pressing from the side of the watch, it is easy to work, also can reduce the clock contour. In addition, the movement of the decorative body can be maximized in the limited space.
[0060]
【The invention's effect】
As described above, according to the mechanical timepiece of the present invention, a surprising change is obtained and excellent appreciation is obtained.
Further, there is an advantage that the movement of the decorative body can be maximized in a limited space, and the decorative effect can be enhanced.
[Brief description of the drawings]
FIG. 1 is a front external view showing a mechanical timepiece according to the present invention.
FIG. 2 is a front external view showing a state where a dial is separated and a movable divided piece rotates and revolves at 90 °.
FIG. 3 is a front external view showing a state in which a dial is separated and a movable divided piece rotates and revolves 180 °.
FIG. 4 is a longitudinal sectional view taken along the line AA in FIG.
FIG. 5 is a vertical sectional view taken along a line BB in FIG. 1;
FIG. 6 is a diagram in which only a part of the dial and a part of the first decorative portion according to the present invention are extracted, and is a diagram illustrating a case where the dial is in a closed state.
FIG. 7 is a diagram in which only the part of the dial and a part of the first decorative portion according to the present invention are extracted, and is a diagram illustrating a case where the dial is in an open state.
FIG. 8 is a diagram showing a ferris wheel and a rotating mechanism of a movable split piece.
FIG. 9 is a view of the rotation mechanism of the ferris wheel and the movable split piece as viewed from the back side.
FIG. 10 is an enlarged longitudinal sectional view of a first decorative part and a dial part of FIG. 4;
FIG. 11 is a view showing a structure of a correction spring according to the present invention.
FIG. 12 is a diagram for explaining a function of a correction spring according to the present invention.
FIG. 13 is a diagram for explaining a configuration of a detecting means forming a part of a mechanical timepiece according to the present invention.
[Explanation of symbols]
10 ... mechanism clock
11 Case body
12 ... Glass plate
13UR, 13UL, 13DR, 13DL ... Glass holder
14 ... Dial
141 ... fixed split piece
142-144 ... movable division piece
15: First decorative part
16: second decorative part
17… Movement
18 ... hour hand
19 ... minute hand
200 ... Rotating mechanism
201: drive motor
205: 4th gear (center decoration gear)
206: Fifth gear (peripheral gear)
207: 6th gear (peripheral gear)
208: seventh gear (peripheral gear)
300: first detection unit
400: second detection unit

Claims (8)

A mechanical timepiece having a decorative portion on the back side of the dial that is driven by receiving a drive signal based on a designated time or a monitor signal,
The above dial is
The fixed boundary and the movable boundary are divided into a fixed division and a movable division, and the fixed boundary and the movable division are divided into a fixed boundary and a movable boundary. It is formed in an arc shape that can rotate along the edge,
The decorative part is
A drive motor that rotates at a predetermined speed in response to a drive signal,
At least one transmission gear for transmitting the rotation of the rotation shaft of the drive motor,
A center decoration gear to which the rotation of the transmission gear is transmitted,
The rotation of the gear for center decoration is arranged around the gear for center decoration, and the one end of the rotating shaft is fixed to the movable divided piece of the dial, and in response to the rotation of the gear for center decoration. A peripheral gear for rotating the movable divided piece so as to be positioned in a predetermined area of an area extending from the inside of the dial-shaped area to the outside of the area,
Attached to the rotation shaft of the center decoration gear, rotates according to the rotation of the center decoration gear, and with the rotation, at least the back side area of the movable divided piece located when defining the dial. A central ornament where the decorative body is located,
Mechanism clock with. A receiving wheel arranged coaxially with a surrounding gear for rotating the movable split piece and a predetermined engagement relationship,
2. The timepiece according to claim 1, further comprising correction means for biasing the peripheral gear and the receiving wheel in a direction for returning a backlash between the center decoration gear and the peripheral gear. 3. The timepiece according to claim 1, further comprising a detection unit configured to detect that the movable division piece has reached a predetermined rotation angle position. The detecting means includes a swing arm arranged to be swingable around a predetermined support shaft, and a lock formed on an outer peripheral edge of the center decoration gear so as to lock one end of the swing arm. 4. A switch according to claim 3, further comprising: a switch which is activated by the other end of the swing arm and detects a predetermined position in a state where one end of the swing arm is locked by the locking portion. Mechanism clock. A mechanical timepiece having a decorative portion on the back side of the dial that is driven by receiving a drive signal based on a designated time or a monitor signal,
The above dial is
The fixed divisional piece has a movable divisional piece divided into different portions of the fixed divisional piece, and the fixed boundary and the movable boundary which divide the fixed divisional piece and each movable divisional piece are respectively A movable boundary edge of the movable split piece is formed in an arc shape that can rotate along a fixed boundary edge of the fixed split piece,
The decorative part is
A drive motor that rotates at a predetermined speed in response to a drive signal,
At least one transmission gear for transmitting the rotation of the rotation shaft of the drive motor,
A center decoration gear to which the rotation of the transmission gear is transmitted,
The center decoration gear is arranged around the center decoration gear to transmit the rotation of the center decoration gear, and one end of a rotating shaft is fixed to a movable segment associated with the dial, and the center decoration gear is respectively provided. A plurality of peripheral gears for rotating the movable divided piece so as to be positioned in a predetermined area of an area extending from the inside of the defined area of the dial to the outside of the defined area according to the rotation of
Attached to the rotation shaft of the center decoration gear, rotates according to the rotation of the center decoration gear, and with the rotation, at least the back side area of the movable divided piece located when defining the dial. A central ornament where the decorative body is located,
Mechanism clock with. A receiving wheel arranged coaxially with a peripheral gear and a predetermined engagement relationship for rotating the movable split piece,
6. The timepiece according to claim 5, further comprising correction means for urging the peripheral gear and the receiving wheel in a direction for returning a backlash between the center decoration gear and the peripheral gear. 7. The timepiece according to claim 5, further comprising detecting means for detecting that the movable divided piece has reached a predetermined rotational angle position. The detecting means includes a swing arm arranged to be swingable around a predetermined support shaft, and a lock formed on an outer peripheral edge of the center decoration gear so as to lock one end of the swing arm. 8. A switch according to claim 7, further comprising a switch and a switch which is actuated by the other end of the swing arm to detect a predetermined position in a state where one end of the swing arm is locked by the locking portion. Mechanism clock.

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