JP2004333176A - Trick clock - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a trick clock that can maximize the movement of a decoration body in a limited space, can enhance decoration effect, can easily change the opening/closing angles of a dial, and can easily cope with various specifications. <P>SOLUTION: One end of rotary shafts 206a-208a of respective peripheral gears 206-208 is fixed as a drive shaft, cam grooves 2091-2111 for guiding operating elements 1212-1232 of movable division pieces 121-123 in a specific range are formed, the operating element is guided in a specific range along with the rotation of the drive shaft being rotated according to the rotation of a gear 205 for central decoration, and cam drives 209-211 for rotating the movable division pieces 121-123 with pivoted sections 1111-1113 as rotation axes are provided so that the movable division pieces 121-123 are located in a prescribed region extending to the outside of a demarcated region from the inside of the demarcated region of the dial shape. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a Karakuri clock, and more particularly to a Karakuri clock that, for example, moves a dial or the like so that a decorative body such as a doll stored behind appears at a predetermined time.
[0002]
[Prior art]
The clock face is composed of a plurality of divided pieces. For example, at the hour, the divided pieces are moved so as to separate them, and a decorative body such as a doll accommodated behind them appears and matches the music. A clockwork clock that activates the lever decoration has been developed and commercialized.
[0003]
Examples of such a clockwork timepiece include those disclosed in Patent Document 1, Patent Document 2, and the like. In the mechanism clock disclosed in Patent Document 1, the dial is formed by a substantially fan-shaped segment divided into a plurality of pieces, and at a predetermined time, these segments are rotated to spread in a petal shape. The decorative body such as a doll housed behind the dial is made visible. As a drive mechanism for rotating each piece of the divided dial, there are a ring-shaped rack having teeth formed on the outer periphery, and a plurality of gears arranged on the radially outer side of the rack so as to mesh with the rack. Etc., and the respective pieces are fixed to the rotation shafts of the plurality of gears, and the rack is driven by a drive motor so that the pieces can be freely rotated.
[0004]
Further, the clockwork clock disclosed in Patent Document 2 is formed so that the dial can be divided into two parts up and down, and at a predetermined time, the dial is separated into upper and lower parts and accommodated behind the dial. A decorative body such as a doll is visible.
[0005]
By the way, in the clockwork timepiece disclosed in Patent Document 1, a ring-shaped rack having teeth formed on the outer periphery as a drive mechanism for rotating each piece of the divided dial so as to mesh with this rack. Since a plurality of gears and the like arranged on the outer side in the radial direction of the rack are employed, there is a problem that the entire timepiece becomes larger in the radial direction and it is difficult to consolidate parts.
[0006]
In addition, each piece of the dial face that is rotated and opened is only supported by the rotation shaft, and there is a problem that rattling or tilting in the front-rear direction may occur.
Furthermore, the movement range of each piece forming the dial is a range that rotates around a fixed rotation axis, so it is not so conspicuous. There was a problem of lacking.
[0007]
Also, in the timepiece disclosed in the above-mentioned Patent Document 2, the dial divided into two parts up and down simply moves up and down, so that an internal ornament can appear, but the appearance changes. There is a problem that it does not give a strong impression as well, and is similarly poor in change.
[0008]
Accordingly, the applicant has divided the dial into a fixed split piece including the insertion part of the pointer shaft and three movable split pieces, the pointer shaft being rotationally driven by the movement is inserted in the central shaft portion, and In response to the drive signal based on the designated time or monitor signal, the ferris wheel arranged on the back side of the dial is rotated, and the three movable divided pieces of the dial are rotated 180 ° to be in the open state, that is, movable. A clockwork clock provided with a decorative portion that rotates the divided pieces from the inside of the defined area of the dial face to the outside of the defined area and then reverses it to return the movable divided piece to the original position that defines the dial face. (See Patent Document 3).
[0009]
[Patent Document 1]
Japanese Patent Publication No.8-10256
[Patent Document 2]
JP-A-8-68870
[Patent Document 3]
JP 2001-153971 A
[0010]
[Problems to be solved by the invention]
The clockwork timepiece disclosed in Patent Document 3 is rich in unexpected change and provides excellent appreciation.
In addition, 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.
[0011]
However, since the rotary clock disclosed in Patent Document 3 is basically coaxial with the rotation axis of the movable divided side of the dial and the drive shaft, the rotation angle of the drive shaft becomes the opening / closing angle of the dial.
Therefore, in the mechanism clock disclosed in Patent Document 3, a complicated control mechanism is required to change the rotation angle of the drive shaft, that is, the opening / closing angle of the dial, and it is not easy to cope with various specifications. There is a profit.
[0012]
The present invention has been made in view of such circumstances, and the object thereof is the unexpectedness of dynamic changes such as a dial that opens and closes the front of the decorative body while simplifying the structure and reducing the number of parts. It is possible to give a better appreciation with richness, to show the movement of the decoration body in the limited space as much as possible, and to enhance the decoration effect, as well as the opening and closing angle of the dial It is an object of the present invention to provide a timepiece that can be easily changed and easily accommodates various specifications.
[0013]
[Means for Solving the Problems]
In order to achieve the above object, a first aspect of the present invention is a clockwork timepiece having a decoration portion driven on the back side of a dial in response to a drive signal based on a designated time or a monitor signal. Has a movable piece having an actuator formed on the back side and one end side rotatably supported by a shaft support portion, and the decorative portion is driven to receive a drive signal and rotate in a forward and reverse direction at a predetermined speed. A motor, at least one transmission gear for transmitting the rotation of the rotation shaft of the drive motor, a central ornament gear for transmitting the rotation of the transmission gear, and the central ornament arranged around the central ornament gear. A peripheral gear to which rotation of the gear for transmission is transmitted, and one end portion of the rotary shaft of the peripheral gear is fixed as a drive shaft, and a guide portion for guiding the actuator of the movable piece over a predetermined range is formed, Of the central decorative gear Along with the rotation of the drive shaft that rotates in accordance with the rotation, the actuator is guided in a predetermined range, and the movable piece is moved to a predetermined area in the area extending from the inside of the dial-shaped defined area to the outside of the defined area. A cam drive unit that rotates with the shaft support unit as a rotation axis, and a rotation shaft of the center decoration gear, and rotates according to the rotation of the center decoration gear, A center ornament on which a decorative body is located on a back side region of the movable piece located when the dial is defined.
[0014]
According to a second aspect of the present invention, there is provided a clockwork clock having a decorative portion driven by receiving a drive signal based on a designated time or a monitor signal on the back side of the dial, and the dial is operated on the back side. A driving motor that has a plurality of movable split pieces that are rotatably supported by a shaft support portion at one end side, and the decorative portion receives a drive signal and can rotate in a forward and reverse direction at a predetermined speed; At least one transmission gear for transmitting the rotation of the rotation shaft of the drive motor, a central decoration gear for transmitting the rotation of the transmission gear, and the central decoration gear disposed around the central decoration gear. A plurality of peripheral gears to which rotation is transmitted, and one end portion of the rotation shaft of each peripheral gear is fixed as a drive shaft, and a guide portion that guides the actuator of the movable split piece over a predetermined range is formed, For central decoration The actuator is guided in a predetermined range along with the rotation of the drive shaft that rotates in accordance with the rotation of the vehicle, and the movable divided piece is set in a predetermined area in the dial shape from the defined area to the outside of the defined area. A plurality of cam drive portions that rotate with the shaft support portion as a rotation axis and a rotation shaft of the central ornament gear so as to be located in the region of the central ornament gear, and rotate according to the rotation of the central ornament gear, A center ornament on which a decorative body is positioned at least on the back side region of the movable divided piece positioned when the dial is defined along with the rotation.
[0015]
Preferably, the guide portion of the cam drive unit includes a first guide for guiding the movable (divided) piece of the actuator in a first direction, and the first guide communicating with the first guide in the first direction. And at least a second guide for guiding the movable (split) piece in the second direction, and the movable (split) piece is moved to the shaft only when the actuator of the movable (split) piece is guided to the first guide. The support is rotated around the rotation axis.
[0016]
Preferably, a rotating roller having a guide portion formed at a predetermined position is provided, and each movable (divided) piece has a guided portion along the rotation trajectory of the movable piece. When the (divided) piece rotates, the guided portion rotates while being guided by the guide portion of the rotating roller.
[0017]
Preferably, the rotating roller is provided coaxially with the shaft support portion of the adjacent movable (divided) piece.
[0018]
Preferably, the rotation shaft of the shaft support portion and the peripheral gear is disposed on the outer peripheral side of the dial so as to be substantially positioned on a concentric circle locus centering on the rotation shaft of the central decoration gear. ing.
[0019]
According to the present invention, when a drive signal based on the designated time or the 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 central decoration gear.
As a result, the central ornament rotates in a predetermined direction.
Along with the rotation of the central ornament gear, a plurality of peripheral gears arranged around it rotate in the opposite direction or the same direction as the central ornament.
As a result, the cam drive unit engaged with the actuator of the movable split piece also starts to rotate. For example, the actuator receives a pressing force by the side wall of the first guide, and the movable split piece rotates counterclockwise around the shaft support portion as the rotation center. Start rotating.
And the position where the central ornament rotating behind the dial changes from moment to moment until the movable split piece changes from the closed state to the open state, or from the open state to the closed state. .
Therefore, the movement of the decorative body can be maximized in a limited space, and the decorative effect is enhanced.
And the opening / closing angle of a dial can be changed easily and it is easy to respond to various specifications.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments according to the present invention will be described below with reference to the accompanying drawings. For convenience of explanation, some drawings are shown using a perspective projection method.
Further, in the accompanying drawings referred to in the present embodiment, the case body that defines the outer contour of the clockwork clock is omitted for simplification of the drawings.
[0021]
FIG. 1 and FIG. 2 show an embodiment of a clockwork timepiece according to the present invention, and FIG. 1 is a front view showing an open state in which a movable divided piece is rotated and a dial is separated by a decorative part to be described later. FIG. 2 is a front view showing a closed state in which the movable divided piece is rotated by a decorative portion to be described later and the dial is in a normal state.
[0022]
The clockwork timepiece 10 according to the present embodiment is disposed in a timepiece housing portion 11 in a case body protected by a front glass plate provided on a case body (not shown) that defines an outer contour, and is provided with three movable divided pieces 121, 122, The dial 12 divided into 123, the decoration part 13 that is arranged on the back side of the dial 12 and allows the movable divided pieces 121, 122, and 123 to be opened and closed, and the back side further than the decoration part 13 of the dial 12 ( An hour hand 14 and a minute hand 15 which are driven by a movement (not shown) arranged on the back surface side of the case body are provided as main components.
[0023]
The watch casing 11 is formed with, for example, a dial base 111 that is formed in a circular shape having a predetermined diameter and defines the shape of the dial 12.
A pointer shaft 16 that is rotationally driven by a movement (not shown) is inserted through the central shaft portion of the circular dial base 111.
[0024]
The dial 12 is divided into three movable division pieces 121, 122, 123 as described above.
Each of the movable divided pieces 121, 122, 123 is formed in, for example, an arc shape (a crescent shape), and, as shown in FIG. 2, a normal dial in an area defined by the circular dial base 111 when closed. In the open state, as shown in FIG. 1, each movable member is positioned in a predetermined region of the region that reaches the region outside the defined region of the dial shape. One end side of each of the divided pieces 121, 122, 123 is rotatably supported with respect to a shaft support portion formed at a predetermined position of the dial base 111.
[0025]
A more specific configuration of the dial 12 will be described with reference to FIGS. 3, 4 and 5.
FIG. 3 is a view showing the back side of the dial 12 and explaining the mounting structure for the dial base 111.
4 is a diagram in which only the dial portion and a part of the first decoration portion are extracted, and shows a case where the dial is in an open state. FIG. 5 is a diagram showing the dial portion and the first decoration portion. It is the figure which extracted only a part of decoration part, Comprising: It is a figure which shows the case where a dial face is in a closed state.
[0026]
As shown in FIGS. 3 to 5, the movable split piece 121 is formed in an arc shape (a crescent shape), and a shaft support hole 1211 serving as a rotation center is formed on one end side, and in the vicinity of the shaft support hole 1211. Is formed with an actuator 1212 which is guided by being inserted into a cam groove of a cam driving portion which will be described later.
An arc-shaped guided portion 1213 is formed on the other end side of the movable divided piece 121 along the rotation locus of the movable divided piece 121. When the movable divided piece 121 rotates, the guided portion 1213 It rotates while being guided by the guide portion 1121 of the rotating roller 112 arranged on the base 111 for the board.
[0027]
As shown in FIGS. 3 to 5, the movable divided piece 122 is formed in an arc shape (a crescent shape), and a shaft support hole 1221 serving as a rotation center is formed on one end side, and in the vicinity of the shaft support hole 1221. Is formed with an actuator 1222 which is inserted into a cam groove of a cam driving portion which will be described later and guided.
In addition, an arc-shaped guided portion 1223 is formed on the other end side of the movable divided piece 122 along the rotation locus of the movable divided piece 122. When the movable divided piece 122 rotates, the guided portion 1223 becomes a character. It rotates while being guided by the guide portion 1131 of the rotating roller 113 disposed on the board base 111.
[0028]
As shown in FIGS. 3 to 5, the movable split piece 123 is formed in an arc shape (a crescent shape), and a shaft support hole 1231 serving as a rotation center is formed on one end side, and in the vicinity of the shaft support hole 1231. Is formed with an actuator 1232 that is inserted into a cam groove of a cam drive section to be described later and guided.
In addition, an arc-shaped guided portion 1233 is formed on the other end side of the movable divided piece 123 along the rotation locus of the movable divided piece 123. When the movable divided piece 123 rotates, the guided portion 1233 becomes a character. It rotates while being guided by the guide portion 1141 of the rotating roller 114 disposed on the base 111 for the board.
[0029]
Next, the mounting structure of the movable split piece 121 will be described with reference to FIG.
A shaft support portion 1111 that is inserted into a shaft support hole 1211 of the movable split piece 121 at a predetermined position of the dial base 111 and rotatably supports the movable split piece 121, and a cam drive unit described later in the vicinity of the shaft support portion 1111. A recess 1114 that is rotatably installed is formed. The rotating roller 112 is coaxially supported by the shaft support portion 1112 inserted into the shaft support hole 1211 of the adjacent movable split piece 121.
In such a configuration, the shaft support portion 1111 is inserted into the shaft support hole 1211 of the movable split piece 121, the actuator 1212 is inserted into the cam groove of the cam drive portion, and the guided portion 1213 is set as the guide portion of the rotating roller 112. The movable divided piece 121 is attached to the dial base 111 by being locked to the 1121.
Similarly, the shaft support portion 1112 is inserted into the shaft support hole 1221 of the movable split piece 122, the actuator 1222 is inserted into the cam groove of the cam drive portion, and the guided portion 1223 is engaged with the guide portion 1131 of the rotating roller 113. The movable divided piece 122 is attached to the dial base 111 by stopping.
Similarly, the shaft support portion 1113 is inserted into the shaft support hole 1231 of the movable split piece 123, the actuator 1232 is inserted into the cam groove of the cam drive portion, and the guided portion 1233 is engaged with the guide portion 1141 of the rotating roller 114. The movable divided piece 123 is attached to the dial base 111 by stopping.
[0030]
In the present embodiment, as described above, the rotating rollers 112 to 114 on which the guide portions 1121 to 1141 for guiding the guided portions 1213 to 1233 of the movable split pieces 121 to 123 are formed are the shaft support portions of the adjacent movable split pieces. And are provided coaxially.
Thereby, there is an advantage that the movable dividing pieces 121 to 123 can be smoothly assembled and efficiently assembled.
[0031]
In the decoration part 13, a ferris wheel 131 as a central decoration is rotatably provided in the central part on the back side of the dial 12.
Balloons and bell decorations 131-1, 131-2, 131-3, 131- are provided as a plurality of (five in this embodiment) decorative bodies so as to rotate around the ferris wheel 131 according to the rotation of the ferris wheel 131. 4,131-5 is provided.
Further, the decoration unit 13 rotates the ferris wheel 131 in response to a drive signal based on the designated time or monitor signal, and also rotates the three movable divided pieces 121, 122, 123 of the dial 12 as shown in FIG. 2, that is, the movable divided piece is rotated so as to be located outside the defined area from the defined area of the dial shape, and then rotated reversely, as shown in FIG. , 122, 123 are returned to their original positions defining the dial 14.
Further, when the dial 12 is changed from the closed state to the open state and from the open state to the closed state, the viewer 131 and bell decorations 131-1, 131-2, 131-3, 131-4, and the like as rotating decorations are provided. The appearance of 131-5 changes according to the rotation of the movable split pieces 121, 122, 123. Thereby, the unexpectedness of the change as a clockwork clock is increased, and excellent appreciation is obtained.
[0032]
Below, the specific structure of the decoration part 13 is demonstrated in relation to FIG.4, FIG.5 and FIG.6.
[0033]
FIG. 6 is a diagram showing a ferris wheel and a rotating mechanism of a movable split piece.
[0034]
The rotation mechanism 200 includes a drive motor 201, a first gear 202 pivotally supported on the rotation shaft of the drive motor 201, a second gear 203 that meshes with the first gear 202, a third gear 204 that meshes with the second gear 203, A fourth gear 205 that meshes with the third gear 204, a fifth gear 206, a sixth gear 207, and a fourth gear 207 that are arranged around the fourth gear 205 at an angle of 120 degrees and mesh with the fourth gear 205, respectively. 7 gear 208, first cam drive unit 209, second cam drive unit 210, and third cam drive unit 211.
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 the dial base 111. It is fixed or pivotally supported with respect to the base substrate.
[0035]
The rotation shaft of the ferris wheel 131 is fixed to the rotation shaft 205a of the fourth gear 205 as a center decoration gear.
The rotary shaft 206a of the fifth gear 206 as a peripheral gear can be rotated from the back side of the dial base 111 with respect to the cam drive unit 211 for rotating the movable divided piece 121 of the dial 12 as a drive shaft. It is fixed.
A rotation shaft 207a of a sixth gear 207 as a peripheral gear is fixed to a cam drive unit 220 for rotating the movable split piece 122 as a drive shaft so as to be rotatable from the back side of the dial base 111.
A rotary shaft 208a of a seventh gear 208 as a peripheral gear is fixed to a cam drive unit 230 for rotating the movable split piece 123 as a drive shaft so as to be rotatable from the back side of the dial base 111.
[0036]
Further, as shown in FIG. 7, receiving wheels 212, 213, and 214 are coaxial between the back side of the fifth gear 206, the sixth gear 207, and the seventh gear 208 as peripheral gears and the base substrate 209. Is arranged.
As shown in FIGS. 8A and 8B, there are gaps between the upper surfaces of the receiving wheels 212, 213, and 214 and the back surfaces of the fifth gear 206, the sixth gear 207, and the seventh gear 208. The central portion is formed as a winding line, the rotating shaft is inserted through the winding portion 215a, and both end portions 215b and 215c are locked to the back side of the fifth gear 206, the sixth gear 207, and the seventh gear 208. A correction spring 215 is arranged.
Further, bosses 212 a, 213 a, and 214 a are formed on the upper surfaces of the receiving wheels 212, 213, and 214, and elongated holes formed on the back surfaces of the fifth gear 206, the sixth gear 207, and the seventh gear 208 Each is engaged.
Further, grooves 212b, 213b, and 214b are formed in the receiving wheels 212, 213, and 214 at positions opposed to each other by 180 °, and the fifth gear 206, the sixth gear 207, and Bosses 206c, 207c, 208c formed on the back side of the seventh gear 208 are fitted, and the rotational direction of the receiving wheels 212, 213, 214 is restricted. Both ends 215b and 215c of the correction spring 215 are engaged with the bosses 206c, 207c and 208c of the gears and the receiving wheels 212, 213 and 214, and a spring force (elastic force) is urged.
[0037]
Each cam drive unit 209, 210, 211 has a fan-like shape as shown in the figure, and the end that is the center of the arc portion has a fifth gear 206, a sixth gear 207 as a peripheral gear, as described above. , And the rotation shaft 206a, 207a, 208a of the seventh gear 208 is fixed to the dial base 111 through the back side as a drive shaft.
[0038]
The cam drive unit 209 has a cam groove 2091 as a guide unit that guides the actuator 1212 of the movable split piece 121 along the outer peripheral side arc.
4 and 5, the cam groove 2091 includes a first guide 2091a that guides the actuator 1212 of the movable split piece 121 in an arc shape in the first direction, and an operator 1212 that communicates with the first guide 2091a. The movable divided piece 121 has a second guide 2091b that guides the second guide 2091b in an arc shape in a second direction different from the first direction, and only when the actuator 1212 of the movable divided piece 121 guides the first guide 2091a. Is rotated about the shaft support 1211 as a rotation axis.
For example, in the case of FIG. 5 showing the closed state, the first direction is the direction of the pivotal support 1211 and is slightly inward of the dial 12, and the second direction is substantially orthogonal to the first direction. Direction.
[0039]
The cam drive unit 210 has a cam groove 2101 as a guide unit that guides the actuator 1222 of the movable split piece 122 along the outer arc.
4 and 5, the cam groove 2101 includes a first guide 2101a that guides the actuator 1222 of the movable split piece 122 in an arc shape in the first direction, and an actuator 1222 that communicates with the first guide 2101a. The movable split piece 122 has a second guide 2101b that is guided in an arc in a second direction different from the first direction, and only when the actuator 1222 of the movable split piece 122 is guiding the first guide 2101a. Is rotated about the shaft support 1221 as a rotation axis.
As the first direction, for example, in the case of FIG. 5 showing the closed state, the direction of the shaft 1212 is slightly inward of the dial 12, and the second direction is substantially orthogonal to the first direction. Direction.
[0040]
The cam drive unit 211 has a cam groove 2111 as a guide unit that guides the actuator 1232 of the movable split piece 123 along the outer arc.
4 and 5, the cam groove 2111 includes a first guide 2111a that guides the actuator 1232 of the movable split piece 123 in an arc shape in the first direction, and an operator 1232 that communicates with the first guide 2111a. The movable split piece 123 is provided only when the second guide 2111b is guided in an arc in a second direction different from the first direction, and the actuator 1232 of the movable split piece 123 is guiding the first guide 2111a. Is rotated about the shaft support 1231 as a rotation axis.
For example, in the case of FIG. 5 showing the closed state, the first direction is the direction of the pivotal support 1231 and is slightly inward of the dial 12, and the second direction is substantially orthogonal to the first direction. Direction.
[0041]
Further, each bell decoration 131-1, 131-2, 131-3, 131-4, 131-5 in the ferris wheel 131 is formed with a pedestal part (riding part) G set to a predetermined weight at the lower part. Even when the ferris wheel 131 rotates with the rotation of the fifth gear 206, the normal weight as shown in FIG.
[0042]
Further, in the mechanism clock according to the present embodiment, it is detected that the movable divided pieces 121, 122, 123 have been rotated to reach a predetermined rotational angle position (rotated 180 ° or 90 °), etc. FIG. As shown in FIG. 1, a first detector 300 and a second detector 400 are provided.
[0043]
Specifically, as shown in FIG. 9, for example, the first detection unit 300 is a latch that makes a gentle inclination at a predetermined position on the outer peripheral portion of the fourth gear 205 as a center decoration gear except for the ring tooth portion. The base substrate 111a is provided with a first swing arm 303 so as to be swingable with respect to a support shaft 302 formed on the base substrate 111a. One end portion 303 a is provided with an engagement pin 304 that passes through an opening (not shown) formed in the base substrate 111 a and reaches the fourth gear 205.
The other end 303b of the first swing arm 303 can be engaged with the switch lever 305a of the first switch 305 fixed to the base substrate 111a.
[0044]
In the first detection unit 300 having the first swing arm 303, the tapered recess 301, the first switch 305, and the like, the fourth gear 205 or the movable divided pieces 142, 143, and 144 of the dial 12 are in the hour mode. Then, it is detected that a predetermined rotational angle position has been reached, or that the position 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 becomes the switch lever of the first switch 305. The first switch 305 is turned off due to separation from 305a or the pressing force by the other end 304b, and the rotation of the drive motor 201 is stopped.
When the first swing arm 303 swings in the reverse direction, the other end 303b is again engaged or pressed with the switch lever 305a of the first switch 305, and the first switch 305 is turned on.
[0045]
Further, as shown in parentheses in FIG. 9, the second detection unit 400 is provided in an outer peripheral region of the back surface of the base substrate 111 a and a region that is 90 ° apart from the support shaft 302. .
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 the base substrate 111a. An engagement pin 403 that passes through an opening (not shown) formed in 111a and reaches the fourth gear 205 is provided.
The other end 402b of the second swing arm 402 can be engaged with a switch lever 404a of the second switch 404 fixed to the base substrate 111a.
[0046]
The second detection unit 400 including the second swing arm 402, the tapered recess 301 shared with the first detection unit 300, the second switch 403, and the like is displayed in the display mode in the case of display for consumers. It is detected that the four gears 205 or the movable divided pieces 142, 143, 144 of the dial 12 have reached a predetermined rotation angle position (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 portion 402b of the second swing arm 402 becomes the switch lever of the second switch 404. When the second switch 404 is turned off when the pressing force by the other end portion 402b is lowered or the second switch 404 is turned off from the position 404a, the driving motor is rotated at about 90 ° from the closed state and revolved and opened on both sides. The rotation of 201 is stopped.
[0047]
Next, the operation in the hour mode of the clockwork timepiece according to this embodiment will be described.
Further, the rotation operation of the movable divided piece will be described with reference to FIGS. 10A to 10E by taking the movable divided piece 121 as an example.
[0048]
As shown in FIG. 2, when the dial 12 (141 to 144) is in a closed state, that is, in a rest position, when a predetermined time such as the hour comes, a control signal (not shown) as a control means generates a drive signal. Thus, the drive motor 201 rotates in one direction, and is transmitted to the fourth gear 205, which is a central decoration gear, via the first to third gears 202 to 204.
As a result, the fourth gear 205 starts to rotate in a predetermined direction, for example, counterclockwise, and the ferris wheel 131 starts to rotate counterclockwise.
[0049]
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 part 303b engages or presses the switch lever 305a of the first switch 305, and the first switch 305 is turned on.
[0050]
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 as the peripheral gears rotate clockwise. As a result, the cam drive units 209, 210, and 211 engaged with the actuators 1212, 1222, and 1232 of the movable split pieces 121, 122, and 123 also start to rotate clockwise, and the actuator 1211 is actuated by the side wall of the first guide 2091a. Receives the pressing force, and the movable split pieces 121, 122, 123 start to rotate counterclockwise around the pivotal support portions 1111, 1112, 1113 as rotation centers.
[0051]
Specifically, as shown in FIG. 10A, the cam drive unit 209 in which the rotation shaft 206a of the fifth gear 206 is fixed as the drive shaft from the rest position (closed state) is shown in FIG. As shown in B), the actuator 1211 is guided through the first guide 2091a of the cam groove 2091.
At this time, the guided portion 1213 is guided along a predetermined rotation locus on the guide portion 1121 formed on the rotating roller 112.
The actuator 1211 of the movable split piece 121 is further guided by the first guide 2091a of the cam groove 2091, and the movable split piece 121 further rotates counterclockwise as shown in FIG. As shown in D), when the actuator 1211 is guided through the first guide 2091 and guided by the second guide 2091b, it is released from the pressing force by the cam groove 2091, and the rotation of the movable split piece 121 stops.
Thereafter, the rotating shaft 206a of the fifth gear 206 rotates to rotate the cam drive unit 209, but only the operator 1212 is guided by the second guide 2091b of the cam groove 2091 as shown in FIG. Then, the actuator 1212 contacts the end of the second guide 2091b, and the rotation of the cam drive unit 209 in the clockwise direction stops here.
[0052]
Similarly, each movable division piece 121, 122, 123 reaches a position outside the defined area of the dial shape as shown in FIG.
Between this closed state and the open state, the places where the bell ornaments 131-1, 131-2, 131-3, 131-4, 131-5 of the Ferris wheel 131 rotating behind are visible And change.
[0053]
As described above, when the movable divided pieces 121, 122, 124 reach a position outside the defined area of the dial shape, the engagement pin 304 of the first swing arm 302 of the first detection unit 300 is moved to the fifth gear. 206 enters the tapered recess 301 and turns off the first switch 305.
Thereafter, 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 that instructs the drive motor 201 that has been stopped once to reversely rotate is output to the drive motor 201.
[0054]
As a result, the cam drive unit 209 is rotated counterclockwise to guide the second guide 2091b, and when it reaches the first guide 2091a, it receives a pressing force opposite to that during the opening operation from the side wall of the first guide 2091a. Thus, the movable split piece 121 is rotated counterclockwise. The other movable divided pieces 122 and 123 receive the same action, and the movable divided pieces 121, 122, and 123 are returned to their original positions that define the dial 12 as shown in FIG.
[0055]
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 disengaged from the switch lever 305a of the first switch 305, or the pressing force by the other end 304b is lowered, and the first switch 305 is turned off. Thereby, the output of the drive signal by the control unit (not shown) is stopped, and the rotation of the drive motor 201 is stopped.
[0056]
The above-described operation completes the hourly mode turning operation, and the hand-operated timepiece performs normal hand movement.
[0057]
Next, the operation in the exhibition mode of the mechanical clock according to this embodiment will be described.
In this case, with the dial 12 (121-123) in the closed state, that is, in the rest position, a mode change switch (not shown) arranged on the back surface of the fixed plate is switched from the hour mode to the exhibition mode.
As a result, a drive signal is generated by a control unit (not shown), the drive motor 201 rotates in one direction, and the fourth gear 205, which is a center decoration gear, is transmitted through the first to third gears 202 to 204. Communicated.
As a result, the fourth gear 205 starts to rotate in a predetermined direction, for example, counterclockwise, and the ferris wheel 131 starts to rotate counterclockwise.
[0058]
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 part 303b engages or presses the switch lever 305a of the first switch 305, and the first switch 305 is turned on.
[0059]
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 as the peripheral gears rotate clockwise. As a result, the cam drive units 209, 210, and 211, to which the actuators 1212, 1222, and 1232 of the movable split pieces 121, 122, and 123 are engaged, also start to rotate clockwise, and the actuator is driven by the side wall of the first guide 2091a. When 1211 receives the pressing force, the movable divided pieces 121, 122, and 123 start to rotate counterclockwise around the shaft support portions 1111, 1112, and 1113.
As a result, the fifth gear 206, the sixth gear 207, and the seventh gear 208 rotate clockwise, and the movable split pieces 121, 122, 123 also start to rotate counterclockwise.
[0060]
Each of the movable divided pieces 142, 143 and 144 rotates to reach a position outside the defined area of the dial shape as shown in FIG.
Between this closed state and the open state, the locations where the balloon decorations 131-1, 131-2, 131-3, 131-4, 131-5 of the Ferris wheel 131 rotating behind are visible And change.
[0061]
As described above, when the movable divided pieces 121, 122, 123 reach a position outside the defined area of the dial shape, the engagement pin 403 of the second swing arm 401 of the second detection unit 400 is moved to the fourth gear. 205 enters the tapered recess 301 and turns off the first switch 404.
Thereafter, 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.
Thereby, consumers etc. can confirm one mode of Karakuri reliably.
[0062]
Furthermore, when the display mode is switched from the exhibition mode to the above-mentioned hourly mode by the mode change switch, the movable divided pieces 121, 122, and 123 are located outside the defined area of the dial shape as in the case of the above-mentioned hourly mode. When the position is reached, 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.
Thereafter, 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 that instructs the drive motor 201 that has been stopped once to reversely rotate is output to the drive mode 201.
Accordingly, the cam driving units 209 to 211 are rotated counterclockwise to guide the second guide, and when the first guide is reached, the pressing force opposite to that during the opening operation is received from the side wall of the first guide. Thus, the movable divided pieces 121 to 123 are rotated counterclockwise. And each movable division | segmentation piece 121,122,123 is returned to the original position which demarcates the dial 12 as shown in FIG.
[0063]
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 disengaged from the switch lever 305a of the first switch 305, or the pressing force by the other end 304b is lowered, and the first switch 305 is turned off. Thereby, the output of the drive signal by the control unit (not shown) is stopped, and the rotation of the drive motor 201 is stopped.
[0064]
As described above, according to the present embodiment, one end of the rotation shafts 206a to 208a of the peripheral gears 206 to 208 is fixed as a drive shaft, and the actuators 1212 to 1232 of the movable split pieces 121 to 123 are set in a predetermined manner. Cam grooves 2091 to 2111 are formed to guide the movable segment pieces 121 to 123 in a predetermined range as the driving shaft rotates in accordance with the rotation of the center decoration gear 205. Since the cam drive units 209 to 211 that rotate about the shaft support portions 1111 to 1113 as rotation axes are provided so as to be located in a predetermined region in the region extending from the inside of the defined region of the dial face to the outside of the defined region, It is rich in surprise and provides excellent appreciation. In addition, the movement of the decorative body can be maximized in a limited space, the decorative effect can be enhanced, the dial opening / closing angle can be easily changed, and various specifications can be achieved. There is an advantage that it can be easily handled.
[0065]
Further, in the decorative portion 13, a predetermined engagement relationship is established between the back side of the fifth gear 206, the sixth gear 207, and the seventh gear 208 for rotating the movable split pieces 121, 122, 123 and the base substrate 111a. The receiving wheels 212, 213, 214 are arranged coaxially, the rotating shaft is inserted through the winding portion 215 a, and both end portions 215 b, 215 c are on the back side of the fifth gear 206, the sixth gear 207, and the seventh gear 208. Since the correction spring 215 that is locked is disposed, the backlash shift (return) of the fourth gear 205 for center decoration, the fifth gear 206 for surrounding, the sixth gear 207, and the seventh gear 208 is reduced. It can be corrected.
[0066]
In the present embodiment, the second guide of the cam groove of the cam drive portion is formed in an arc shape along the outer peripheral portion, and the first guide for rotating the movable split piece is formed to communicate with the end portion. However, for example, as shown in FIG. 11A, a third guide 2091c having a different guide direction is provided in the middle of the second guide 2091b, or formed in an annular shape as shown in FIG. 11B. Various forms such as a form in which the first guide 2091d and the second guide 2091e are provided can be employed.
In this case, it is possible to give a change to the rotation operation of the movable split piece.
[0067]
【The invention's effect】
As described above, according to the clockwork timepiece of the present invention, the change is unexpected and excellent appreciation is obtained. In addition, the movement of the decorative body can be maximized in a limited space, the decorative effect can be enhanced, the dial opening / closing angle can be easily changed, and various specifications can be achieved. There is an advantage that it can be easily handled.
[Brief description of the drawings]
FIG. 1 is a front view of a clockwork timepiece according to the present invention showing an open state in which a movable divided piece is rotated by a decorative portion and a dial is separated.
FIG. 2 is a front view of a clockwork timepiece according to the present invention showing a closed state in which a movable divided piece is rotated by a decoration portion and a dial face is in a normal state.
FIG. 3 is a view showing the back side of the dial and explaining the mounting structure for the dial base.
FIG. 4 is a diagram in which only a part of a dial face and a part of a decoration part are extracted, and shows a case where the dial face is in an open state.
FIG. 5 is a diagram in which only a part of a dial face and a part of a decoration part are extracted, and shows a case where the dial face is in a closed state.
FIG. 6 is a diagram showing a ferris wheel and a movable split piece rotation mechanism;
FIG. 7 is a diagram in which only a part of a dial and a part of a decoration part according to the present invention are extracted, and a diagram showing a more specific configuration when the dial is in an open state.
FIG. 8 is a view showing a structure of a correction spring according to the present invention.
FIG. 9 is a diagram for explaining a configuration of detection means forming a part of the timepiece of the present invention.
FIG. 10 is a diagram for explaining an operation according to the present embodiment.
FIG. 11 is a diagram showing another configuration example of the cam drive unit according to the present invention.
[Explanation of symbols]
10 ... Karakuri Clock
11 ... Clock housing
111 ... Dial base
111a ... Base substrate
12 ... Dial
121-123 ... movable division piece
13 ... Decoration
14 ... hour hand
15 ... minute hand
200: Rotating mechanism
201 ... Drive motor
205 ... Fourth gear (center ornament gear)
206 ... fifth gear (peripheral gear)
207 ... Sixth gear (peripheral gear)
208 ... 7th gear (peripheral gear)
209 to 211 ... cam drive unit
300 ... 1st detection part
400 ... 2nd detection part

Claims (9)

A clockwork clock having a decorative portion that is driven by receiving a drive signal based on a designated time or monitor signal on the back side of the dial,
The above dial is
An actuator is formed on the back surface side, and one end side has a movable piece that is rotatably supported by a shaft support portion,
The decorative part is
A drive motor capable of receiving a drive signal and rotating in a forward and reverse direction at a predetermined speed;
At least one transmission gear for transmitting rotation of the rotation shaft of the drive motor;
A central decorative gear to which the rotation of the transmission gear is transmitted;
A peripheral gear disposed around the central ornamental gear to transmit the rotation of the central ornamental gear;
One end of the rotation shaft of the peripheral gear is fixed as a drive shaft, a guide portion for guiding the movable piece actuator over a predetermined range is formed, and the drive rotates according to the rotation of the central ornament gear. As the shaft rotates, the actuator is guided within a predetermined range, and the movable piece is positioned in a predetermined region in the area extending from the inside of the dial-shaped defined area to the outside of the defined area. A cam drive unit that rotates about the rotation axis;
Attached to the rotation shaft of the central decoration gear and rotated in accordance with the rotation of the central decoration gear, and at least the back side region of the movable piece positioned when the dial is defined along with the rotation A clockwork having a central ornament on which the body is located. The guide portion of the cam drive unit includes a first guide that guides the operating element of the movable piece in a first direction, and the operating element that communicates with the first guide in a second direction different from the first direction. A second guide for guiding,
2. The clockwork timepiece according to claim 1, wherein the movable piece is rotated about the shaft support portion as a rotation axis only when the operating element of the movable piece is guiding the first guide. A rotating roller having a guide portion formed at a predetermined position;
The movable piece is formed with a guided portion along the rotation locus of the movable piece,
3. A clockwork timepiece according to claim 1, wherein the movable piece rotates while rotating while the guided portion is guided by the guide portion of the rotating roller. The rotation shaft of the shaft support portion and the peripheral gear is disposed so as to be substantially positioned on a concentric circle locus centering on the rotation shaft of the central decoration gear on the outer peripheral side of the dial. 1, 2, or 3 clockwork clock. A clockwork clock having a decorative portion that is driven by receiving a drive signal based on a designated time or monitor signal on the back side of the dial,
The above dial is
Actuators are formed on the back side, respectively, and one end side has a plurality of movable split pieces rotatably supported by a shaft support portion,
The decorative part is
A drive motor capable of receiving a drive signal and rotating in a forward and reverse direction at a predetermined speed;
At least one transmission gear for transmitting rotation of the rotation shaft of the drive motor;
A central decorative gear to which the rotation of the transmission gear is transmitted;
A plurality of peripheral gears arranged around the central ornamental gear to transmit the rotation of the central ornamental gear;
One end of the rotating shaft of each of the peripheral gears is fixed as a drive shaft, and a guide portion for guiding the actuator of the movable split piece over a predetermined range is formed, and rotates according to the rotation of the central decorative gear. With the rotation of the drive shaft, the actuator is guided in a predetermined range, and the movable divided piece is positioned in a predetermined area in the area extending from the inside of the dial-shaped defined area to the outside of the defined area. A plurality of cam driving portions that rotate about the shaft support portion as a rotation shaft;
It is attached to the rotation shaft of the central decoration gear, rotates according to the rotation of the central decoration gear, and at the same time, the back side region of the movable split piece located when demarcating the dial is associated with the rotation. A clockwork having a central ornament on which a decorative body is located. The guide portion of each of the cam drive portions includes a first guide that guides the actuator of the movable split piece in a first direction, and a second guide that communicates with the first guide and that is different from the first direction. A second guide for guiding in a direction,
6. A clockwork timepiece according to claim 5, wherein the movable split piece is rotated about the shaft support portion as a rotation axis only when the actuator of the movable split piece is guiding the first guide. A rotating roller having a guide portion formed at a predetermined position;
Each movable split piece is formed with a guided portion along the rotation trajectory of the movable split piece,
7. A clockwork timepiece according to claim 5, wherein each movable divided piece rotates while being guided while the guided portion is guided by the guide portion of the rotating roller. 8. The clockwork timepiece according to claim 7, wherein the rotating roller is provided coaxially with the shaft support portion of an adjacent movable split piece. The rotation shaft of the shaft support portion and the peripheral gear is disposed so as to be substantially positioned on a concentric circle locus centering on the rotation shaft of the central decoration gear on the outer peripheral side of the dial. A mechanical clock according to 5, 6, 7, or 8.

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