CN101169619A - Watch attaching with calendar function and assembly method of the watch - Google Patents

Abstract

The ancillary calendar-functional clock of the invention is provided with a base plate (19). The base plate (19) is provided with a plurality of holes (76) arrayed along the peripheral surface (26b) of a calendar disc (26) when the annular calendar disc (26) is concentrically arranged on the upper surface of the base plate (19). When being located, the annular calendar disc (26) is arranged roughly concentric with the base plate (19). Then, if a plurality of guide nails (77) are inserted into the holes (76) of the base plate (19), the guide nails (77) contact the peripheral surface of the annular calendar disc (26) through the cooperation of the guide nails (77) and adjust the position of the calendar disc (26) in the direction of the radius; in this way, the calendar disc (26) is concentrically positioned on the base plate (19) precisely.

Description

The assemble method of subsidiary calendar function clock and watch and these clock and watch

Technical field

The present invention relates to show date subsidiary by the calendar function standard wave carry out to the clock and watch of table function and the assemble method of these clock and watch.

Background technology

Always, in the subsidiary calendar function clock and watch that show date, have in the calendar-disc of the dated ring-type of printing of concentric arrangement and be arranged on the interior perimembranous of this calendar-disc and the calendar rotating disk engagement of annular wheel portion rotationally on the base plate, and make under this state calendar-disc and rotate by the rotation of calendar rotating disk.

In this subsidiary calendar function clock and watch, as as described in the spy opens 2004-144482 number, for the concentric arrangement calendar-disc freely of rotation on base plate, calendar-disc is made, below the interior perimembranous of this calendar-disc, have the guide cylinder portion that is provided with coaxially with calendar-disc, and along the above-mentioned annular wheel of being provided with in interior week of above-mentioned guide cylinder portion portion, and, a plurality of rotors that rotate under the state of outer peripheral face of this guide cylinder portion of contact are set, and the rotation by these a plurality of rotors guiding calendar-disc.

Yet, the complex structure of these clock and watch not only, and exist amount of parts to increase and the more numerous and diverse problem of assembling operation.When a plurality of rotor especially is installed on base plate, owing to each rotor must be installed on the base plate so that therefore the outer peripheral face of the guide cylinder portion of a plurality of rotor contact calendar-disc, needs higher precision on the installation exercise of rotor, thus, there is the loaded down with trivial details problem of assembling operation.

Summary of the invention

The present invention is in order to solve this existing problem, provides simple in structure and can easily carry out the subsidiary calendar function clock and watch of assembling operation and the assemble method of these clock and watch.

The following write up that above-mentioned and other purpose of the present invention, feature and advantage are read in conjunction with the drawings about embodiments of the invention and variation thereof will be seen that.In addition, the same Reference numeral in the accompanying drawing is represented same similar parts.

Description of drawings

Fig. 1 is a front view of having used wrist-watch of the present invention.

Fig. 2 is the cut-open view from the observation of II-II direction of Fig. 1.

Fig. 3 be Fig. 1 dismantled rear view under the state of bonnet from wrist-watch.

Fig. 4 is the front view of the clock module of presentation graphs 1.

Fig. 5 is the rear view of the clock module of Fig. 4.

Fig. 6 is a front view of having dismantled the clock module under the state of solar cell dish among Fig. 4 and figure disc.

Fig. 7 is a front view of having dismantled the clock module under the state of the calendar-disc binding among Fig. 6.

Fig. 8 is a rear view of having dismantled the clock module under the state of the circuit substrate among Fig. 5.

Fig. 9 is a rear view of having dismantled the clock module under the state of the train bracket among Fig. 8.

Figure 10 A is the enlarged front view of first of presentation graphs 8 and Fig. 9～the 5th impulse motor.

Figure 10 B is the enlarged side view of first of presentation graphs 8 and Fig. 9～the 5th impulse motor.

Figure 11 is the cut-open view that 3 pins from the observation of XI-XI direction of Fig. 9 are used train.

Figure 12 is the cut-open view that the 3 reverse up and down pins from the observation of XII-XII direction of Fig. 7 are used train.

Figure 13 is the cut-open view that 2 pins from the observation of XIII-XIII direction of Fig. 9 are used train.

Figure 14 is that the A portion of having amplified Figure 13 is near the cut-open view the gib screw.

Figure 15 is the cut-open view of the special-purpose train of second hand of observing from the XV-XV direction of Fig. 9.

Figure 16 is the cut-open view that the calendar-disc from the observation of XVI-XVI direction of Fig. 9 is used train.

Figure 17 is expression is positioned at the minute hand rotating disk of train 3 pins of Figure 11 the state on the base plate with assembling jig a amplification view.

Figure 18 is the front view that is illustrated in the state of location calendar-disc among Fig. 7.

Figure 19 will locate the side view that the key component at the position of calendar-disc is represented with section in Figure 18.

Figure 20 is the rear view of the state in the watch case that the clock module of Fig. 3 is positioned at the module binding.

Figure 21 A is the front view of the module binding of Figure 20.

Figure 21 B is the side view of the module binding of Figure 20.

Figure 21 C is the rear view of the module binding of Figure 20.

Figure 22 A is the cut-open view that the direction from XXIIA-XXIIA of Figure 20 is observed.

Figure 22 B is the cut-open view that the direction from XXIIB-XXIIB of Figure 20 is observed.

Figure 23 is an amplification view of roughly representing the clock module of first variation of the present invention.

Figure 24 is the amplification view of the wrist-watch of expression second variation of the present invention.

Embodiment

Describe in conjunction with Fig. 1～Figure 22 B about the embodiment that spininess clock and watch of the present invention are applied on the wrist-watch below.

As Fig. 1～shown in Figure 3, this wrist-watch possesses watch case 1.Be provided with diving index dial 1a on the upper periphery of this watch case 1, simultaneously, interior week is provided with table cover glass 2 by means of packing ring 2a at an upper portion thereof.Also have,, accommodate clock module 3, below watch case 1, bonnet 4 is installed by means of waterproof ring 4a in the inside of this watch case 1.Have again, on each side of 3 o'clock one sides of this watch case 1 and 9 o'clock one sides, be separately installed with first～the 4th pushbutton switch 5a～5d.

As shown in Figure 2, clock module 3 is made, possess train piece 6, circuit substrate 7, antenna 8 and battery 9, and these devices are assemblied in the watch case 1 by module binding 10, meanwhile, solar panel 11 and figure disc 12 is up stacked by its order on train piece 6, and becomes under this state solar panel 11 and figure disc 12 and be installed on structure on the train piece 6 by dead ring 13.

At this moment, train piece 6 is that plane earth is arranged the device with accurate clocking capability that a plurality of groups of following trains form.Circuit substrate 7 be used for drive controlling train piece 6, and collapsed configuration is in the downside of train piece 6.Antenna 8 is used for the acceptance criteria time wave and carries out the moment and correct, and is disposed at 12 o'clock one sides in the clock module 3 in the thickness range of superimposed train piece 6 and circuit substrate 7.Battery 9 is power supplys, is disposed at 9 o'clock one sides of the clock module 3 different with antenna 8 in the thickness range of superimposed train piece 6 and circuit substrate 7.

Secondly, train piece 6 is described.

As Fig. 4～shown in Figure 16, this train piece 6, have 3 pins with train 15,2 pins with train 16, the special-purpose train 17 of second hand and calendar-disc with train 18, these train plane earths are assemblied on the train bracket 20 of the base plate 19 of synthetic resin article and synthetic resin article.At this moment, 3 pins constitute with train 15, roughly be positioned at 3 pins of second hand 15a, minute hand 15b, 12 hour hands 15c and be disposed on the same axle under the state of approximate centre portion of clock module 3 and by first, second impulse motor 21,22 runnings, meanwhile, be positioned under the state of 9 o'clock one sides of clock module 3 by means of gear train 41 running pointers at 24 hour hands 15d.

Also have, as Fig. 4～Fig. 9 and shown in Figure 13,2 pins constitute with train 16, and 2 pins of minute hand 16a, 24 hour hands 16b are being disposed at respectively under the state of 3 o'clock one sides that are positioned at clock module 3 on the axle of pairing arranged coaxial, and by 23 operations of the 3rd impulse motor.As Fig. 4～Fig. 9 and shown in Figure 15, the special-purpose train 17 of second hand constitutes, and second hand 17a moves by the 4th impulse motor 24 under the state of 6 o'clock one sides that are positioned at clock module 3.As Fig. 4～Fig. 9 and shown in Figure 16, calendar-disc constitutes with train 18, makes along calendar-disc 26 rotations of the peripheral part configuration of base plate 19 by the 5th impulse motor 25.

First of this each train 15～18～the 5th impulse motor 21～25, such shown in Figure 10 A and Figure 10 B, constitute by coil portion 27, stator 28 and rotor 29 respectively, and NS magnetic field is produced, and magnetic field rotary rotor 29 by inducting on stator 28 by on coil portion 27, connecting necessary electric current.At this moment, rotor 29 is made, and its two ends are rotated and are supported in freely on base plate 19 and the train bracket 20, and rotor portions 29a is not disposed in the rotor hole of stator 28 contiguously with other, and under this state the response magnetic field that coil portion 27 took place and stepping is rotated.

Below each train 15～18 is described in order.

At first 3 pins are described with train 15.As Fig. 7～shown in Figure 12, this 3 pin constitutes with train 15, is divided into first train group that drives by first impulse motor 21 and the second train group that drives by second impulse motor 22.The first train group as Figure 11 and as shown in Figure 12, possesses No. five rotating disks 30 rotating by first impulse motor 21 and is No. four rotating disks 31 by the second hand rotating disk that these No. five rotating disks 30 rotate.

The second train group, as Fig. 7～as shown in Figure 12, except the minute hand rotating disk that possesses the middle rotating disk 32 that rotates by second impulse motor 22 and No. three rotating disks 33 that rotate by this centre rotating disk 32, rotate by these No. three rotating disks 33 i.e. No. two rotating disks 34, the calendar back side rotating disk 35 that rotates by these No. two rotating disks 34, the hour hands rotating disk that rotates by this calendar back side rotating disk 35 promptly the rotating disk 36, the 24 hour hands rotating disks 37 that gear train 41 transmission and rotation in 24 hours are enclosed are passed through in the rotation that also possesses calendar back side rotating disk 35.

As shown in figure 11, No. five rotating disks 30 of the first train group constitute, its both ends are rotated and are supported in freely on base plate 19 and the train bracket 20, and under this state, and large diameter gear part is engaged on the pinion wheel of rotor 29 of first impulse motor 21 and rotates.No. four rotating disks 31 as second hand, reach as shown in Figure 12 as Figure 11, be positioned at its second hand axle 31a under the locational state of approximate centre of clock module 3, rotation is supported on the middle bracket 38 and train bracket 20 that is installed on the base plate 19 freely, and goes up installation second hand 15a at the leading section (being the bottom in Figure 11) of this second hand axle 31a.

At this moment, middle bracket 38 is made of the metal foil dish of stainless steel etc., and under the state of the roughly pars intermedia that is positioned at base plate 19 and train bracket 20, is installed on the base plate 19.Also have, on the approximate centre position of the clock module 3 in this centre bracket 38, reach as shown in Figure 12, be provided with the second hand axle 31a that is used for No. four rotating disks 31 and rotate the tubulose maintenance tube 39 that inserts freely as Figure 11.This maintenance tube 39 constitutes, rotate under the state that inserts freely at the second hand axle 31a of No. four rotating disks 31, rotate and to be inserted into following minute hand rotating disk freely promptly in the minute hand shaft 34a of the tubular of No. two rotating disks 34, and rotate and keep the lower end that the minute hand shaft 34a of minute hand 15b is installed freely.Under this state, large diameter gear part is engaged on the pinion wheel of No. three rotating disks 33 and rotates.

Also have, the middle rotating disk 32 of the second train group, as shown in Figure 11, its both ends are rotated and are supported in freely on base plate 19 and the train bracket 20, and under this state, large diameter gear part is engaged on the pinion wheel of rotor 29 of second impulse motor 22 and rotates.No. three rotating disks 33, its both ends are rotated and are supported in freely on base plate 19 and the middle bracket 38, and under this state, also rotate on the pinion wheel of rotating disk 32 in the middle of large diameter gear part is engaged on.

At this moment, No. two rotating disks 34, in the time of on being disposed at base plate 19, the periphery of large diameter gear part limits its position by given spacing by gear limits portion 19a (referring to Figure 12) that forms one with base plate 19, meanwhile, No. two rotating disk 34 relative base plates 19 generally limit its position by these 19a of gear limits portion and pinion wheel restrictions 19b.Also have, as shown in Figure 17, the minute hand shaft 34a of No. two rotating disks 34 is located exactly by assembling jig G1, and under this state, the maintenance tube 39 of the tubulose by middle bracket 38 rotates and is inserted into freely in the minute hand shaft 34a, in the middle of minute hand shaft 34a rotates and is supported in freely on the maintenance tube 39 of bracket 38.

As shown in figure 12, calendar back side rotating disk 35, rotate be supported in freely be installed in the middle of on the back shaft 40 on the bracket 38, and under this state, large diameter gear part is engaged on the tubular pinion wheel of No. two rotating disks 34 and rotates.At this moment, the back shaft 40 of calendar back side rotating disk 35, as shown in Figure 12, be inserted in the mounting hole 38a of middle bracket 38, and under this state, head 40a by back shaft 40 is solid by the axle fastening part 20a locking that is arranged on the train bracket 20, and is generally perpendicularly limited its position by middle bracket 38.

The hour hands rotating disk i.e. tube rotating disk 36, reach as shown in Figure 12 as Figure 11, its hour hand axle 36a forms tubular, rotate by minute hand shaft 34a and insert freely in the hour hand axle 36a of this tubular, in the locational state lower support of the approximate centre that is disposed at clock module 3 on minute hand shaft 34a.Also have, this rotating disk 36 is equipped with 12 hour hands 15c on the leading section (being the bottom) of its hour hand axle 36a in Figure 11, and under this state, and large diameter gear part is engaged on the pinion wheel of calendar back side rotating disk 35 and rotates.Thus, second hand axle 31a, minute hand shaft 34a, hour hand axle 36a are disposed on the same axle.

On the one hand, as Fig. 7 and as shown in Figure 12, gear train 41 is made of rotating disk 42 in the middle of first and 43 two gears of 24 o'clock meter rotating disks, and the rotation of deceleration calendar back side rotating disk 35 also transmits to 24 hour hands rotating disks 37.At this moment, rotating disk 42 in the middle of first as shown in Figure 12, rotates and is supported in freely on the following nail 19c who is arranged at base plate 19, and under this state, is engaged on the pinion wheel of calendar back side rotating disk 35 and rotates.24 o'clock meter rotating disks 43, as shown in Figure 12, rotation is supported in freely and is arranged at base plate 19 following propping up on the nail 19d, and under this state, large diameter gear part is engaged on the gear train 41 and rotates.

24 hour hands rotating disks 37, as shown in Figure 12, under the state of 9 o'clock one sides by being positioned at clock module 3 at its 24 hour hand axle 37a, rotate and be installed on freely on the train bracket 20, and on the leading section (being the bottom) of this 24 hour hand axle 37a, 24 hour hands 15d are installed in Figure 12, and under this state, gear part is engaged on the pinion wheel of counting rotating disk 43 at 24 o'clock and rotates, and rotates one and encloses in 24 hours.At this moment, 42,24 o'clock meters of 24 hour hands rotating disks, 37, first middle rotating disk rotating disk 43, calendar back side rotating disk 35 and hour hands rotating disk i.e. a tube rotating disk 36,, fastened by means of elastomeric pad 36b, the 37b of spring washer etc., 48b on rotating state down spring ground by following calendar-disc binding 55.

Below 2 pins are described with train 16.

This 2 pin reaches as shown in Figure 13 as Fig. 7～Fig. 9 with train 16, is disposed at 3 o'clock one sides of clock module 3, and as shown in Figure 1, constitutes 2 pins with the 3rd impulse motor 23 running minute hand 16a, 24 hour hands 16b.Promptly, this 2 pin train 16, as Fig. 7～Fig. 9 and as shown in Figure 13, the minute hand rotating disk that possess middle the rotating disk 45 that rotates by the 3rd impulse motor 23, rotates by this centre rotating disk 45 i.e. No. two rotating disks 46, the calendar back side rotating disk 47 that rotates by these No. two rotating disks 46 and by this calendar back side rotating disk 47 and the 24 hour hands rotating disks 48 that rotation in 24 hours is enclosed.

This 2 pin middle rotating disk 45 of train 16, as shown in Figure 13, its both ends are rotated and are supported in freely on base plate 19 and the train bracket 20, and under this state, and large diameter gear part is engaged on the pinion wheel of rotor 29 of the 3rd impulse motor 23 and rotates.Also have, the minute hand rotating disk i.e. No. two rotating disks 46, be positioned at its minute hand shaft 46a to rotate under the state of 3 o'clock one sides of clock module 3 and be supported in freely on base plate 19 and the train bracket 20, and on the leading section (being the bottom) of this minute hand shaft 46a, minute hand 16a is installed in Figure 13, and under this state, large diameter gear part is engaged on the pinion wheel of calendar back side rotating disk 35 and rotates.

Calendar back side rotating disk 47, its both ends are rotated and are supported in freely on base plate 19 and the train bracket 20, and under this state, and large diameter gear part is engaged on the pinion wheel of No. two rotating disks 46 and rotates.24 hour hands rotating disks 48, it is the tubular rotating disk, be positioned under the state of 3 o'clock one sides of clock module 3 the minute hand shaft 46a of No. two rotating disks 46 rotates and inserts this 24 hour hand axle 48a freely at its 24 hour hand axle 48a, be supported in minute hand shaft 46a thus, and under this state, be engaged on pinion wheel last 24 hour of rotation one circle of calendar back side rotating disk 47.Thus, minute hand shaft 46a and 24 hour hand axle 48a are disposed on the same axle.

Below the special-purpose train 17 of second hand is described.

The special-purpose train 17 of this second hand as shown in Figure 1, is disposed at 6 o'clock one sides of clock module 3, constitutes with the 4th impulse motor 24 running second hand 17a.That is, the special-purpose train 17 of this second hand, the second hand rotating disk that as Fig. 7～Fig. 9 and as shown in Figure 15, possess No. five rotating disks 50 rotating by the 4th impulse motor 24, rotates by these No. five rotating disks 50 i.e. No. four rotating disks 51.

At this moment, No. five rotating disks 50, as shown in Figure 15, its both ends are rotated and to be supported in freely on base plate 19 and the train bracket 20, and under this state, and large diameter gear part is engaged on the pinion wheel of rotor 29 of the 4th impulse motor 24 and rotates.The second hand rotating disk i.e. No. four rotating disks 51, the both ends of its second hand axle 51a are rotated and are supported in freely on base plate 19 and the train bracket 20, and on the leading section (being the bottom) of this second hand axle 51a, second hand 17a is installed in Figure 15, and under this state, gear part is engaged on the pinion wheel of No. five rotating disks 50 and rotates.

Below calendar-disc is described with train 18.

This calendar-disc train 18, it is the structure of rotating calendar-disc 26 with the 5th impulse motor 25, as Fig. 7～Fig. 9 and as shown in Figure 16, middle the rotating disk 53 that possesses No. five rotating disks 52 rotating by the 5th impulse motor 25, rotates by these No. five rotating disks 52, the calendar rotating disk 54 that rotates by this centre rotating disk 53, the calendar-disc 26 of passing through these calendar rotating disk 54 rotations.This calendar-disc No. five rotating disks 52 of train 18, as shown in Figure 16, its both ends are rotated and are supported in freely on base plate 19 and the train bracket 20, and under this state, and large diameter gear part is engaged on the pinion wheel of rotor 29 of the 5th impulse motor 25 and rotates.

Also have, this calendar-disc middle rotating disk 53 of train 18, as shown in Figure 16, its both ends are rotated and are supported in freely on base plate 19 and the train bracket 20, this leading section (being the bottom in Figure 16) is following side-prominent to base plate 19, should be provided with pinion wheel by outstanding leading section, and under this state, the gear part of middle rotating disk 53 is engaged on the pinion wheel of No. five rotating disks 52 and rotates.Calendar rotating disk 54 rotates and is installed on following the propping up on the nail 19e that is arranged on base plate 19 freely, and under this state, also rotates on the pinion wheel of rotating disk 53 in the middle of large diameter gear part is engaged on.

Calendar-disc 26 as Figure 6 and Figure 7, forms along the ring-type of the size of the periphery of base plate 19, and inner circumferential surface is provided with the 26a of annular wheel portion and in accordance with regulations spacing shows the date on the surface.This calendar-disc 26, reach as shown in Figure 18 as Fig. 7, its outer peripheral edges are come by limit its position to determining deviation by the circular calendar-disc guide part 19f on the peripheral part on the surface that is arranged at base plate 19, and as Figure 13 and as shown in Figure 15, more unfertile land formation of the thickness of perimembranous in it, this more the interior perimembranous that forms of unfertile land keep by calendar-disc binding 55, and under this state, the 26a of annular wheel portion is engaged on the pinion wheel of calendar rotating disk 54 and rotated a circle in one month.

At this moment, on base plate 19,, near the position that is positioned at the calendar-disc guide part 19f, be respectively equipped with a plurality of calendar-disc pilot holes 76 that a plurality of guide pins 77 of contacting with the outer peripheral face 26b of calendar-disc 26 insert respectively as Figure 18 and as shown in Figure 19.These a plurality of calendar-disc pilot holes 76 are positioned near 12 o'clock of base plate 19, near 4 o'clock and near 10 o'clock three positions, but and the part of the periphery of each calendar-disc pilot hole 76 under state of contact, be arranged at respectively on the outer peripheral face 26b of calendar-disc 26.

This calendar-disc binding 55 constitutes, as Fig. 6, Figure 11～Fig. 16 especially as shown in Figure 13, form discoid with the bigger a little diameter of internal diameter than the 26a of annular wheel portion (referring to Fig. 6 and Fig. 7) of calendar-disc 26, and support with the peripheral part of calendar-disc binding 55 and dispose with one heart with calendar-disc 26 and the 26a of annular wheel portion of the more unfertile land formation of the interior perimembranous of calendar-disc 26, meanwhile, rotate the 24 hour hands rotating disks 48 of fastening freely 2 pins with the fastening protruding 55a on the periphery that is arranged at calendar-disc binding 55 with train 16, and under this state, be fixed on the base plate 19 by gib screw 56.At this moment, the gear part of 24 hour hands rotating disks 48, the thickness of its peripheral part more unfertile land forms, and prevents that thus the gear part of 24 hour hands rotating disks 48 and the 26a of annular wheel portion of calendar-disc 26 from interfering with each other.

Reach as shown in Figure 14 as Figure 13, gib screw 56, constitute by head 57 and threaded portion 58, head 57 constitutes by the structure that is disposed at the obconic dish 57a of portion in the obconic mounting hole 55b that is arranged on the calendar-disc binding 55 and forms with the round plate 57b of the bottom surface butt that is arranged at the spot-facing portion 59 on the base plate 19, and constitutes thus calendar-disc binding 55 is fixed on structure on the base plate 19.

Yet, when being positioned at this calendar-disc 26 on the base plate 19 and assembling, such shown in figure base plate 19, at first base plate 19 is configured on the assembling jig G2, and makes a plurality of calendar-disc pilot hole 76 correspondences that are separately positioned on this base plate 19 be arranged at a plurality of nail patchholes 78 (first procedure) on the assembling jig G2.At this moment, the nail patchhole 78 of assembling jig G2 forms bigger slightly than the internal diameter of the calendar-disc pilot hole 76 of base plate 19.

Then, as shown in Figure 19, roughly dispose calendar-disc 26 with one heart at upper surface along the peripheral part of base plate 19, and by the calendar-disc guide part 19f on the peripheral part that is arranged at base plate 19, between the outer peripheral face 26b of calendar-disc 26 and calendar-disc guide part 19f,, 26 pairs of base plates 19 of calendar-disc are limited its position (second operation work) by given spacing.Under this state, by making the guide pin 77 that constitutes by upper taper portion and bottom large-diameter portion portion's tapered portion top of beginning to insert and protrude in base plate 19 from it towards the calendar-disc pilot hole 76 of base plate 19 from the nail patchhole 78 of assembling jig G2, and contact the outer peripheral face 26b of calendar-disc 26 gradually by this outstanding guide pin 77, and calendar-disc 26 is positioned at (three process) on the base plate 19.At this moment, constituting of guide pin 77, it is less to form the big top of bottom one side diameter one side diameter, and upper end one side of this top one side forms taper, the major diameter of bottom one side partly is inserted in the nail patchhole 78 of assembling jig G2, the small diameter portion of top one side is inserted in the calendar-disc pilot hole 76 of base plate 19, and the tapering part of upper end one side protrudes in the top of base plate 19.Thus, when guide pin 77 is inserted into the calendar-disc pilot hole 76 of base plate 19 from the nail patchhole 78 of assembling jig G2 in and when protruding in the top of base plate 19, gradually contact the outer peripheral face 26b of calendar-disc 26 by the tapering part of upper end one side, calendar-disc 26 is positioned on the base plate 19.

And, should oriented calendar-disc 26 be fastened on (the 4th procedure) on the base plate 19 rotationally by calendar-disc binding 55.At this moment, the thickness of calendar-disc 26 more unfertile land forms and makes the peripheral part of calendar-disc binding 55 superimposed and keep calendar-disc 26 rotationally on interior perimembranous, and under this state, by gib screw 56 calendar-disc 26 is fixed on the base plate 19 as described above.In addition, extract guide pin 77 and base plate 19 is dismantled from assembling jig G2 from base plate 19 thereafter.

On the one hand, on the train bracket 20 of this train piece 6, as Fig. 8, Figure 11～as shown in Figure 13, be equipped with fastening 3 pins in elastic force ground with train 15,2 pins with each needle pivot of train 16, the special-purpose train 17 of second hand and the loosening laminated spring 61 of rotation that causes by backlash that is used to suppress each pointer rotating disk.Promptly, on this laminated spring 61, as shown in Figure 8, except forming fastening 3 pins in elastic force ground, abut to a plurality of holddown spring 61d of portion, 61e on the circuit substrate 7 with the 3rd 61c of spring portion of fastening 2 pins in first 61a of spring portion, the elastic force ground of the front end of the second hand axle 31a of train 15 with the front end of the second hand axle 51a of the special-purpose train 17 of the fastening second hand of second 61b of spring portion and elastic force ground of the front end of the minute hand shaft 46a of train 16 with also being formed with elastic force.

The clock module 3 of this train piece 6, circuit substrate 7, antenna 8 and battery 9 has been installed, shown in Fig. 2, Figure 20～Figure 22 B, like that, has been assemblied in the watch case 1 by module binding 10.Promptly, this clock module 3, downside configuration circuit substrate 7 at train piece 6, and in the thickness range of this train piece 6 and circuit substrate 7, make its part and calendar-disc be disposed at 12 o'clock one sides of clock module 3 under with the corresponding state of the downside of the calendar-disc 26 of train 18 on antenna 8, make its part be disposed at 9 o'clock one sides of clock module 3 respectively under with the corresponding state of the downside of the gear train of train 15 and 24 hour hands rotating disks 43 with the calendar-disc 26 of train 18 and 3 pins with calendar-disc on battery 9, and under this state, be assemblied in the watch case 1 by module binding 10.

At this moment, on base plate 19, reach as shown in Figure 9, be provided with the antenna accommodation section 62a and the battery compartment 62b that holds top one side of battery 9 of top one side of holding antenna 8 as Fig. 8.Also have, as Fig. 8 and as shown in Figure 9, drive the highest impulse motor of frequency for example the 4th impulse motor 24 of the special-purpose train 17 of second hand do not hinder antenna 8 receiving signal sensitivity be disposed on antenna 8 position farthest.

Have, dispose solar panel 11 and transparent figure disc 12 on this train piece 6, this solar panel 11 and transparent figure disc 12 are installed on the train piece 6 by dead ring 13.Solar panel 11 is accepted extraneous light and is produced electromotive force by transparent figure disc 12, and the electromotive force that this solar panel 11 is produced supplies on the battery 9 and as battery supply and uses.On the surface of transparent figure disc 12, as shown in Figure 1, be printed with number 12a constantly, meanwhile, be provided be presented at calendar-disc 26 on the corresponding date 12b of display window portion of date.Also have, on the position of lip-deep 9 o'clock one sides that are positioned at this figure disc 12, be printed with and 3 pins with the 12c of scale portion of the corresponding circle of the operation range of 24 hour hands 15d of train 15, on the position of 3 o'clock one sides that are positioned at figure disc 12, be printed with and the scale portion 12d of 3 pins with the corresponding circle of the operation range of the minute hand 16a of train 15 and 24 hour hands 16b.Also have, on the position of 9 o'clock one sides that are positioned at figure disc 12, be printed with the 12e of scale portion of the circle corresponding with the operation range of the second hand 17a of the special-purpose train 17 of second hand.

And this clock module 3 as shown in Figure 20, under the state of locating by the module binding 10 that is disposed at its underpart, is assemblied in the watch case 1.This module binding 10 like that, is made of also in the form of annular discs shown in Figure 20 A and Figure 20 B synthetic resin.On this module binding 10, be provided with the peristome 10a of Pear-Shaped, and, also have, will hold the electronic component (not shown) of the inner face that is arranged at bonnet 4 by carrying out the battery altering of battery compartment 62b herein.Also have, make the structure that a plurality of position limit jut 10b (referring to Figure 21 A) are set on peripheral part.

The position limit jut 10b of this module binding 10 (referring to Figure 21 A and Figure 21 B) constitutes, such shown in Figure 22 A and Figure 22 B, when periphery is configured in clock module 3 in the watch case 1 by somatotype parts 63 below table cover glass 2, by with the inner peripheral surface that is arranged at watch case 1 on location indentations 64 and be arranged at the base plate 19 of train piece 6 and the outer peripheral face of train bracket 20 on both of location indentations 65 chimeric, watch case 1 in, locate clock module 3.

Secondly, the situation of using this wrist-watch is described.

On this wrist-watch, have basic clock and watch pattern, accurate timing mode, zebra time pattern, alarm clock mode, the pattern of rectification constantly, and, be transformed into any one pattern by operation first～the 4th pushbutton switch 5a～5d.Basic clock and watch pattern is the pattern of expression current time, accurate timing mode is the pattern of instrumentation time, zebra time, pattern was the pattern that shows the time in each city, the world, and alarm clock mode is an expression alarm clock pattern constantly, and the pattern of rectification constantly is to correct pattern constantly.In order each pattern is described below.

Basic clock and watch pattern, in Fig. 1, make minute hand 15b, 12 hour hands 15c, 24 hour hands 15d running by 3 pins with second impulse motor 22 action of train 15, show branchs, the time, moment of 24 o'clock, meanwhile, the 4th impulse motor 24 actions by the special-purpose train 17 of second hand are turned round second hand 17a, show a second moment, in addition, with the 5th impulse motor 25 action of train 18 calendar-disc 26 is rotated, make the date 12b of display window portion of corresponding figure disc 12 of date and show by calendar-disc.At this moment, because 3 pins are failure to actuate with first impulse motor 21 of train 15, therefore, second hand 15a is positioned on the reference position (12 o'clock positions).Also have, because 2 pins also are failure to actuate with the 3rd impulse motor 23 of train 16, therefore, minute hand 16a, 24 hour hands 16b also are positioned on the reference position.

Accurate timing mode if operate the 4th pushbutton switch 5d under basic clock and watch pattern, then is transformed on the accurate timing mode.At this moment, though the second hand 17a of the special-purpose train 17 of second hand resets and is positioned on the reference position, the action and the demonstration benchmark moment that 3 pins carry out with calendar-disc 26 maintenance still of train 18 with minute hand 15b, 12 hour hands 15c, 24 hour hands 15d and the calendar-disc of train 15 always.If operation the 4th pushbutton switch 5d under this state, then begin accurate timing, 3 pins make second hand 15a turn round with first impulse motor, 21 actions of train 15, simultaneously, the 4th impulse motor 24 actions of the special-purpose train 17 of second hand make second hand 17a turn round, in addition, 2 pins make minute hand 16a and 24 hour hands 16b also turn round with the 3rd impulse motor 23 of train 16 with its interlock action.

At this moment, 3 pins make second hand 15a high-speed rotation with first impulse motor 21 of train 15 with the speed of one minute one circle, and the 4th impulse motor 24 of the special-purpose train 17 of second hand with a second one circle speed make second hand 17a high-speed rotation.Also have, 2 pins rotate minute hand 16a with the 3rd impulse motor 23 of train 16 with the speed of enclosing for 60 seconds one, and with the speed of 24 hours one circles 24 hour hands 16b are rotated.Thus, the second hand 17a of the special-purpose train 17 of second hand, 3 pins are used the second hand 15a of train 15 and minute hand 16a, 24 hour hands 16b running and the instrumentation time that 2 pins are used train 16.

If operate the 4th pushbutton switch 5d once more in this state, then accurate timing stops, and the second hand 17a of the special-purpose train 17 of second hand, 3 pins stop the also indicated number instrumentation time with the second hand 15a of train 15 and 2 pins with minute hand 16a, the 24 hour hands 16b of train 16.Then, if operate the 4th pushbutton switch 5d once more, then accurate timing begins once more, and instrumentation time as described above, if operate the 4th pushbutton switch 5d once more, then accurate timing stops, and the indicated number instrumentation time.In addition, if the operation second pushbutton switch 5b then returns basic clock and watch pattern.

Zebra time, pattern if operate the first pushbutton switch 5a under basic clock and watch mode state, then switched to pattern zebra time.At this moment, also indicate any one of each local city the city of 3 pins with the current place of user of the second hand 15a of train 15 indication on being presented at somatotype parts 63, and the moment that 2 pins have been used the local city of second hand 15a indication with the minute hand 16a and the 24 hour hands 16b indication of train 16, and the moment both sides' of the moment of the time period in the city at the current place of second hand 17a indication user of the special-purpose train 17 of second hand and local city thereof moment second (both sides are identical second constantly).In addition, 3 pins still move and indicate the moment of the time period in city, user place with the calendar-disc 26 of train 18 with minute hand 15b, 12 hour hands 15c, 24 hour hands 15d and the calendar-disc of train 15.

At this moment, be presented at each city name on the somatotype parts 63, typographical display is on the position at per two minutes intervals, and the typographical display of benchmark city is on 12 o'clock position (GMT).Also have, when the change city, after pressing the first pushbutton switch 5a, whenever press the first pushbutton switch 5a within one second once more, then 3 pins move and the change city in proper order with the second hand 15a of train 15, thereupon, 2 pins have changed the constantly local of city with the minute hand 16a and the 24 hour hands 16b indication of train 16.Also have, if the limit is operated the second pushbutton switch 5b limit and operated the first pushbutton switch 5a, the then local moment replaces constantly with local.In addition, if only operate the second pushbutton switch 5b, then return basic clock and watch pattern.

Alarm clock mode if operate the 3rd pushbutton switch 5c under basic clock and watch mode state, then is transformed into alarm clock mode.At this moment, 3 pins with near second hand 15a indicated number " opening " 11 o'clock of train 15 (ON), and 2 pins are with the minute hand 16a of train 16 and 24 hour hands 16b indication alarm clock constantly.Also have, the second hand 17a of the special-purpose train 17 of second hand and 3 pins are used minute hand 15b, 12 hour hands 15c, 24 hour hands 15d and the calendar-disc of train 15 calendar-disc 26 action still and the indication benchmark moment with train 18.In addition, if operation the 4th pushbutton switch is made 5d, then return basic clock and watch pattern.

The pattern of rectification constantly if operate the second pushbutton switch 5b under basic clock and watch mode state, then is transformed into the pattern of rectification constantly.At this moment, near the 3 pins "Yes" (Y) of second hand 15a indicated number 3 o'clock of train 15, and 2 pins the minute hand 16a of train 16 and the previous collection of letters result that antenna 8 received signals are used in 24 hour hands 16b indication.Also have, the second hand 17a of the special-purpose train 17 of second hand and 3 pins are used minute hand 15b, 12 hour hands 15c, 24 hour hands 15d and the calendar-disc of train 15 calendar-disc 26 action still and the indication benchmark moment with train 18.

If under this state, operate two seconds of the second pushbutton switch 5b, then near " preparation " of second hand 15a indicated number 7 o'clock of 3 pins usefulness train 15 (READY), and the second hand 17a of the special-purpose train 17 of second hand is returned to basic clock and watch pattern, and make property ground acceptance criteria time wave with the antenna Final 8.

So, according to this wrist-watch, owing to have the train piece 6 of accurate clocking capability is that plane earth arranges how the group trains are the structure that 3 pins form with train 18 with train 16, the special-purpose train 17 of second hand, calendar-disc with train 15,2 pins, therefore, can make the thickness of train piece 6 thinner, meanwhile, owing to can arrange many group trains by plane earth, so assembling operation efficient is higher.Also have, arrange the downside collapsed configuration circuit substrates 7 of organizing the train piece 6 of trains at plane earth more, therefore, will not be divided into a plurality of by circuit substrate 7, and can be, thereby also can improve assembling operation efficient thus with the superimposed simply assembling on train piece 6 of circuit substrate 7.Have again,, therefore, also can assemble antenna 8 and battery 9 small-sizedly even the thickness of antenna 8 and battery 9 is thicker owing in the thickness range of superimposed train piece 6 and circuit substrate 7, antenna 8 and battery 9 are configured in respectively on the sidepiece of train piece 6 and circuit substrate 7.Thus, can realize the slimming of clock and watch integral body.

At this moment, the formation owing to train piece 6 possesses: three pointers of second hand 15a, minute hand 15b, 12 hour hands 15c are configured in the 3 pins train 15 that also turns round with first, second impulse motor 21,22 on the respective shaft of arranged coaxial; Minute hand 16a, two pointers of 24 hour hands 16b are configured in that same axle is gone up and with the 2 pins train 16 of the 3rd impulse motor 23 runnings; Make the structure of the calendar-disc of calendar-disc 26 runnings with the special-purpose train 17 of second hand of 24 runnings of the 4th impulse motor second hand 17a and with the 5th impulse motor 25 with train 18, so drive 3 pins are with train 15 separately, 2 pins train 16, special-purpose train 17 of second hand and calendar-disc train 18, thus, etching system and accurate timekeeping system in the time of in each train 15～18 any one not only can being changed to, and etching system and accurate timekeeping system freely change and make up can make the time, thus, when making the variation of the combination of etching system and accurate timekeeping system various, can realize more multi-functional expression.

For example as the foregoing description, can be with the minute hand 15b of running 3 pins with train 15, the 4th impulse motor 24 of the second hand 17a of second impulse motor 22 of 12 hour hands 15c and the special-purpose train 17 of second hand that turns round and running calendar-disc the 5th impulse motor 25 conduct moment system drive of the calendar-disc 26 of train 18, and can drive first impulse motor 21 of 3 pins with the second hand 15a of train 15,2 pins that the turn round minute hand 16a of train 16, the 4th impulse motor 24 of the second hand 17a of the 3rd impulse motor 23 of hour hands 16b and the special-purpose train 17 of running second hand drives as accurate timekeeping system.

Also have, also can be with running 3 pins with first, second impulse motor 21,22 of second hand 15a, the minute hand 15b of train 15,12 hour hands 15c, 24 hour hands 15d and running calendar-disc with the 5th impulse motor 25 of the calendar-disc 26 of train 18 as system drive constantly, and also four impulse motor 24 of running 2 pins with the second hand 17a of the 3rd impulse motor 23 of minute hand 16a, the hour hands 16b of train 16 and running second hand special use train 17 can be driven as accurate timekeeping system.Also have, by driving each impulse motor 21～25, the combination of etching system and accurate timekeeping system, can realize more multi-functional expressions such as zebra time except can change aptly the time with in addition to these combination.

Also have, in this wrist-watch, because 3 pins are assemblied on base plate 19 and the train bracket 20 with train 18 plane earths with train 16, the special-purpose train 17 of second hand and calendar-disc with train 15,2 pins, have again, make the structure of self contained function separately, therefore, when assembling, each 3 pin can be assembled with train 18 with train 16, the special-purpose train 17 of second hand and calendar-disc individually with train 15,2 pins, thus, can realize the further raising of assembling operation efficient.

At this moment, though concentric arrangement is superimposed on the calendar-disc of the inboard of the base plate 19 different separately positions of a part in same plane with the part of the calendar-disc 26 of train 18 and antenna 8 and battery 9, calendar-disc is equipped with antenna 8 and battery 9 in the extreme with the calendar-disc 26 of train 18 thin compact.Just because of this, clock module 3, the thickness of its clock and watch integral body is thickening hardly, can realize the miniaturization of clock and watch integral body.

Also have, on this wrist-watch, be provided with 3 pins with train 15,2 pins upper surface with the base plate 19 of train 16, the special-purpose train 17 of second hand on, be provided with the calendar-disc guide part 19f of the ring-type protuberance of the concentric arrangement that has the external diameter identical for restriction site with base plate 19.The calendar-disc calendar-disc 26 of the ring-type of train 18, roughly be disposed at the inboard of the calendar-disc guide part 19f of ring-type with it with one heart, and make the spacing that has ring-type between calendar-disc 26 and calendar-disc guide part 19f, and train 15～17 is disposed at the inboard of calendar-disc 26.Base plate 19 has along a plurality of calendar-disc pilot holes 76 of the spacing arrangement of the ring-type between calendar-disc 26 and the calendar-disc guide part 19f.

If a plurality of guide pins 77 are inserted in these calendar-disc pilot holes 76, then by with these guide pins 77 between contact gradually, calendar-disc 26 can be easily and is positioned at exactly on the suitable position of calendar-disc guide part 19f inboard of ring-type.When the location, as long as calendar-disc guide part 19f is set on the peripheral part of base plate 19, and on the base plate 19 that is positioned near the position this calendar-disc guide part 19f, a plurality of calendar-disc pilot holes 76 are set and get final product, therefore, simple in structure and can easily carry out assembling operation.

At this moment, calendar-disc 26 is rotated with one heart by calendar-disc binding 55 superimposed modes with the edge portion of perimembranous in it and to be assemblied in freely on the base plate 19, and the contact site of the calendar-disc binding 55 that contacts with calendar-disc 26 is less.Because calendar-disc 26 is positioned on the calendar-disc 26 exactly during assembling, therefore, calendar-disc binding 55 easily and exactly can be installed on the base plate 19.

Also have, this calendar-disc binding 55 is fixed to gib screw 56 on the base plate 19, because its head 57 is by being configured to the obconic dish 57a of portion in the obconic mounting hole 55b that is arranged on the calendar-disc binding 55 and constituting with the round plate 57b of the bottom butt of the spot-facing portion 59 of base plate 19, and when the threaded portion of gib screw 56 58 screw threads are attached in the threaded hole 60a of the threaded hole parts 60 that are embedded in the base plate 19, outer peripheral face at the obconic dish 57a of portion contacts under the state of obconic mounting hole 55b inner peripheral surface, the bottom of the spot-facing portion 59 of round plate 57b butt base plate 19 also is fixed, thus calendar-disc binding 55 is fixed on the base plate 19, therefore, can make the bed knife to calendar-disc binding 55 of gib screw 56 keep roughly certain.Thus, it is certain that the bed knife of 56 pairs of calendar-disc bindings 55 of gib screw keeps, and calendar-disc binding 55 is supported rotationally, thereby base plate 19 is fixed indeformablely relatively.

Therefore, can be at solar panel 11 and the figure disc 12 of assembled configuration under the smooth state to the calendar-disc binding 55, meanwhile, can guarantee the spacing between each pointer 15a～15d, 16a, 16b, 17a and the figure disc 12 of each train 15～17, thus, can prevent that each pointer 15a～15d, 16a, 16b, 17a from contacting figure disc 12, each pointer 15a～15d, 16a, 16b, 17a be operation well above figure disc 12.

In addition, in the clock module 3 of the foregoing description, for in calendar-disc with the part of next side collapsed configuration antenna 8 of the calendar-disc 26 of train 18 and the part of battery 9, simultaneously, be described in the situation of 3 pins with the part of the further collapsed configuration battery 9 of next side of the gear train of train 15 and 24 o'clock meter rotating disks 43, but be not limited to this, for example variation is such shown in the image pattern 23, for making antenna 8 and battery 9 not superimposed on train piece 6, clock module 3 also can be the structure that is disposed at the side of train piece 6 and circuit substrate 7.Even in this case, if antenna 8 and battery 9 in the thickness range of superimposed train piece 6 and circuit substrate 7.In this clock module 3,, therefore, can make the thickness of clock and watch integral body thinner than the foregoing description owing to be assembled in the watch case 1 by module binding 10.

Also have, in the foregoing description and first variation, constitute by train piece 6, circuit substrate 7, antenna 8 and battery 9 for clock module 3, and these are described by the situation that module binding 10 directly is assembled in the watch case 1, but be not limited to this, for example variation is such shown in the image pattern 24, also can be by train piece 6, circuit substrate 7, antenna 8 and battery 9 are assembled in the housing, constitute clock module 71, and this clock module 71 is assembled in the watch case 1 by module binding 10.Make structure like this,, make that the assembling work of clock module 71 is easy, and can further enhance productivity though the thickness of clock and watch integral body becomes about the thickness of watchcase 70.

Have again, in the foregoing description and first, second variation, be described for situation about being applied on the wrist-watch, but may not be wrist-watch, can be widely applied on the various clock and watch such as pocket-watch, travelling table, alarm watch, desk clock, wall clock as spininess clock and watch of the present invention.

Main idea to embodiment and variation describes below.

Fig. 1～subsidiary calendar function clock and watch shown in Figure 24, it is characterized in that, have base plate (19) and on this base plate rotationally the calendar-disc of concentric arrangement with train (18) ring-type calendar-disc (26), above-mentioned base plate possesses for the location a plurality of holes (76) that a plurality of guide pins (77) of contacting with the outer peripheral face of the calendar-disc of above-mentioned concentric arrangement insert respectively along the periphery of the above-mentioned calendar-disc of concentric arrangement on above-mentioned base plate.

According to this structure, if a plurality of guide pins are inserted into along the outer peripheral face of the ring-type calendar-disc that disposes with one heart with base plate and are disposed in a plurality of holes on its periphery direction, the peripheral part of the above-mentioned calendar-disc of this a plurality of guide pins cooperation contact and the position of above-mentioned calendar-disc regulated to radial direction then, and finally can be with above-mentioned calendar rotating disk exactly and be concentrically positioned on the above-mentioned base plate.In order to locate, as long as above-mentioned base plate has above-mentioned calendar-disc and above-mentioned base plate a plurality of holes along the periphery configuration of above-mentioned calendar rotating disk when disposing with one heart, and the guide pin of similar number is inserted into and gets final product in the above-mentioned pilot hole, and is therefore, simple in structure and can easily carry out assembling operation.

Fig. 1～subsidiary calendar function clock and watch shown in Figure 16 is characterized in that, possess fastening above-mentioned calendar-disc (26) interior perimembranous edge portion and above-mentioned calendar-disc rotated the calendar-disc binding (55) that is installed to freely on the above-mentioned base plate (19).

According to this structure, the edge portion of the interior perimembranous by possessing fastening calendar-disc also rotates calendar-disc the calendar-disc binding that is installed to freely on the base plate, the contact portion of the calendar-disc binding of feasible contact calendar-disc is less, and can fastening reliably calendar-disc under rotating state.In this case, because calendar-disc is positioned on the base plate exactly, therefore, the calendar binding can be installed on the base plate easily and exactly.

Figure 13～subsidiary calendar function clock and watch shown in Figure 14, it is characterized in that, above-mentioned calendar-disc binding (55), be fixed on the above-mentioned base plate (19) by gib screw (56), this gib screw, its head (57) is by being arranged at the obconic dish portion (57a) in the obconic mounting hole (55b) on the above-mentioned calendar-disc binding and constituting with the round plate (57b) of spot-facing portion (59) butt of above-mentioned base plate and with external thread part that this round plate constitutes in the threaded hole in the above-mentioned base plate of screw-in of one.

According to this structure, because the calendar-disc binding is fixed on the base plate by gib screw, and this gib screw, constitute by the obconic dish portion in the obconic mounting hole that is arranged on the calendar-disc binding with the round plate of base plate butt, when the screw division screw thread of gib screw is fixed in the threaded hole of base plate, under the state of the obconic mounting hole butt of the outer peripheral face of obconic dish portion and calendar-disc binding, the round plate butt also is fixed on the base plate, and thus the calendar-disc binding is fixed on the base plate, therefore, bed knife to the gib screw of calendar-disc binding roughly can be kept certain, thereby prevent the distortion of calendar-disc binding and under smooth state, can be fixed to the calendar-disc binding on the base plate well, meanwhile, under the state that rotates freely, can support calendar-disc well.

The assemble method of the subsidiary calendar function clock and watch shown in Fig. 1～figure 22B is characterized in that, has

Go up the operation of calendar-disc (26) of configuration ring-type and a plurality of guide pins (77) that will be arranged on the assembling jig (G2) at base plate (19) and insert respectively towards a plurality of holes (78) that are arranged on the above-mentioned base plate (19), and above-mentioned a plurality of pilot hole contact with the outer peripheral face of above-mentioned calendar-disc and with the position of above-mentioned calendar-disc to radial direction adjusting and above-mentioned calendar-disc is accurate and be concentrically positioned in operation on the above-mentioned base plate.

According to this structure, calendar-disc, at first, is configured in calendar-disc on the above-mentioned base plate accurately and when being concentrically positioned on the above-mentioned base plate with the ring-type calendar-disc of train.Secondly, if a plurality of guide pins that are arranged on the assembling fixture are inserted in above-mentioned a plurality of holes of above-mentioned base plate, the peripheral part of the above-mentioned calendar-disc of this a plurality of guide pins cooperation contact and the position of above-mentioned calendar-disc regulated to radial direction then, and finally can be with above-mentioned calendar-disc accurately and be concentrically positioned on the above-mentioned base plate.This localization method, simple and required location parts also need not many.

Fig. 1～subsidiary calendar function clock and watch shown in Figure 24, it is characterized in that a plurality of pointers are disposed on the above-mentioned base plate with the mode plane earth that formation has the train piece (6) of accurate clocking capability with train (3 pins with train 15,2 pins with the special-purpose train 17 of train 16, second hand).Have again, possess: the circuit substrate (7) of collapsed configuration on this train piece for drive train piece (6); In the thickness range of superimposed above-mentioned train piece and foregoing circuit substrate, be disposed at etalon time electric wave received signal on the sidepiece of above-mentioned train piece and foregoing circuit substrate with antenna (8); And in the thickness range of superimposed above-mentioned train piece and foregoing circuit substrate, for electric power is disposed at the power supply (9) on other sidepieces different to the necessary component feeding of above-mentioned circuit board and other with the sidepiece that disposes above-mentioned antenna.

According to this structure, by possessing: be provided with calendar-disc with the base plate of train on plane earth dispose the train piece with accurate clocking capability of a plurality of pointers with train; In order to drive this train piece on this train piece the circuit substrate of collapsed configuration; In the thickness range of superimposed train piece and circuit substrate, be disposed at the etalon time electric wave received signal antenna on the sidepiece of train piece and circuit substrate; And in the thickness range of superimposed train piece and circuit substrate, be disposed at the power supply on other sidepieces different with the sidepiece that disposes antenna, thereby except simple in structure and can easily and exactly be positioned on the base plate calendar-disc, can also realize the slimming of clock and watch integral body.

That is, in these subsidiary calendar function clock and watch,, the train piece with accurate clocking capability arranges the structure that many groups train of a plurality of pointers that turn round respectively forms because being plane earth, thereby not only can be with the attenuation of train piece, can also the plane earth assembling organize trains, therefore, assembling operation efficient is higher more.Also have since on the train piece of the many groups of plane earth assembling trains the collapsed configuration circuit substrate, therefore, need not to be divided into circuit substrate a plurality of and a circuit substrate can superimposedly simply be assembled on the train piece, also can improve assembling operation efficient thus.Have again, in the thickness range of superimposed train piece and circuit substrate, antenna and power supply are configured in respectively on the sidepiece of train piece and circuit substrate, therefore, also can assemble antenna and power supply compactly even the thickness of antenna and power supply is thicker.Thus, can realize the slimming of clock and watch integral body.

Fig. 1～subsidiary calendar function clock and watch shown in Figure 24, it is characterized in that, on the part of above-mentioned calendar-disc with the above-mentioned calendar-disc (26) of train (18), the part of the part of above-mentioned antenna (8) and above-mentioned power supply (9) is superimposed on the different position of in-plane respectively.

According to this structure, by on the part of calendar-disc with the calendar-disc of train, the part of the part of antenna and power supply is superimposed on the different position of in-plane respectively, even in calendar-disc with the part of the part of antenna and power supply is superimposed on the different position of in-plane on the calendar-disc of train, because in the train piece, calendar-disc is the thinnest with the thickness at the position of the calendar-disc of train, thereby the thickness of clock and watch integral body attenuation hardly, therefore, can assemble antenna and power supply compactly, thus, can realize the slimming of clock and watch integral body.

Under the situation that does not exceed purport widely of the present invention and scope, can make all variation.The foregoing description and variation, be intended to illustrate the present invention and not the explanation restriction of the present invention.As for scope of the present invention, more be embodied in claims of enclosing than the foregoing description and variation, all changes of having done according to the intended scope of the scope of claims of the present invention and equipollent thereof should be regarded as and belong to scope of the present invention.

The Japan that the application is based on the 27 days October in 2005 that comprises instructions, claims, accompanying drawing and specification digest speciallys permit out hope 2005-312667's.The open item that this Japan speciallys permit out hope has intactly referred on the application.

Claims (6)

1. subsidiary calendar function clock and watch is characterized in that,

Have:

Base plate (19) and

On this base plate rotationally the calendar-disc of concentric arrangement with the calendar-disc (26) of ring-type of train (18);

Above-mentioned base plate possesses a plurality of holes (76) that a plurality of guide pins (77) of contacting with the outer peripheral face of the calendar-disc of above-mentioned concentric arrangement insert respectively for the location along the periphery of the above-mentioned calendar-disc of concentric arrangement on above-mentioned base plate.

2. subsidiary calendar function clock and watch according to claim 1 is characterized in that,

Possess and rotate the calendar-disc binding (55) that is installed to freely and with one heart on the above-mentioned base plate in the edge portion of the superimposed with one heart interior perimembranous in above-mentioned calendar-disc and with above-mentioned calendar-disc.

3. subsidiary calendar function clock and watch according to claim 2 is characterized in that,

Above-mentioned calendar-disc binding, be fixed on the above-mentioned base plate by gib screw (56), this gib screw, its head (57) are by the obconic dish portion (57a) in the obconic mounting hole that is arranged on the above-mentioned calendar-disc binding and be configured in the round plate (57b) in the discoid spot-facing portion that is arranged on the above-mentioned base plate and constitute one with this round plate and the external thread part (58) that screws in the threaded hole of above-mentioned base plate constitutes.

4. subsidiary calendar function clock and watch according to claim 1 is characterized in that,

Above-mentioned a plurality of pointer is disposed on the above-mentioned base plate with the mode plane earth that forms the train piece with train,

And further possess:

The circuit substrate of collapsed configuration on this train piece in order to drive this train piece;

In the thickness range of superimposed above-mentioned train piece and foregoing circuit substrate, be disposed at the etalon time electric wave received signal antenna on the sidepiece of above-mentioned train piece and foregoing circuit substrate; And

In the thickness range of superimposed above-mentioned train piece and foregoing circuit substrate, be disposed at the power supply on the other side different with the sidepiece that disposes above-mentioned antenna.

5. subsidiary calendar function clock and watch according to claim 4 is characterized in that,

On the part of above-mentioned calendar-disc with the above-mentioned calendar-disc of train, the part of above-mentioned antenna is superimposed on the different position of in-plane respectively with the part of above-mentioned power supply.

6. the assemble method of subsidiary calendar function clock and watch is characterized in that, has

On the position on the base plate (19) configuration ring-type calendar-disc (26) operation and

A plurality of guide pins (77) that will be arranged on the assembling jig (G2) insert respectively towards a plurality of holes (78) that are arranged on the above-mentioned base plate (19), and above-mentioned a plurality of guide pin contacts with the outer peripheral face of above-mentioned calendar-disc and the position of above-mentioned calendar-disc is regulated and with above-mentioned calendar-disc accurately and be concentrically positioned in operation on the above-mentioned base plate to radial direction.

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