CN104698805A - Assembly and clock - Google Patents

Abstract

The invention provides an assembly and a clock; each upper polarization plate (21, 24) of a first and second liquid crystal display portions (16, 17) is provided with a first and a second cutting portion (21a, 25a) respectively having part of a second hornbook (10), and the first and second liquid crystal display portions are arranged below a first hornbook (6), wherein the first hornbook is arranged above a pointer (7) and used for indicating times; each cutting portion (21a, 25a) of the first and second LCD portions (16,17) are provided with the second hornbook (10), so thinning effect can be obtained; in addition, each upper polarization plate (21, 24) of the first and second liquid crystal display portions (16, 17) is provided with the first and second cutting portions (21a, 25a), so display electrodes of the first and second LCD portions are not added or deleted, and the circuit needs no change, so structures of the LCD portions and other circuits are not complex.

Description

Assembly and clock and watch

Technical field

The present invention relates to the assembly for the electronic equipment of clock and watch etc. and the clock and watch with this assembly.

Background technology

Such as, in wrist-watch, as recorded in the JP 09-251084 document of the patent documentation as Japan, there will be a known following structure: indicating the peristome of first hornbook in moment in top running for pointer, be provided as the second hornbook of the little pin running of function pin, and in the downside of these hornbooks, liquid crystal display part is set, scale display part is set at this liquid crystal display part.

But, in such wrist-watch, because the pointer operated on the first hornbook is configured at overlapping position with the little pin operated on the second hornbook, and, first hornbook above with the second hornbook be the same face above, thus the height of the pointer operated on the first hornbook must be set to the position of the height higher than the little pin operated on the second hornbook.Therefore, there is the problem that thickness becomes large.

The problem that the present invention will solve is provide a kind of structure of liquid crystal display part and its circuit structure uncomplicated and can realize the assembly of slimming and have the clock and watch of this assembly.

Summary of the invention

The present invention relates to a kind of assembly, it is characterized in that, possess: the first hornbook, this first hornbook has peristome, and pointer is operated above it and indicates the moment; Second hornbook, this second hornbook and above-mentioned peristome are configured at the downside of above-mentioned first hornbook accordingly, and operate and deixis above it with the function pin of above-mentioned hands coincide for making; And liquid crystal display part, this liquid crystal display part is configured at the downside of above-mentioned first hornbook and the downside of above-mentioned second hornbook, and comprise liquid crystal cell and upside polarization plates, the position above and corresponding to above-mentioned second hornbook that on the upside of this, polarization plates is arranged at above-mentioned liquid crystal cell is provided with notch.

Accompanying drawing explanation

Fig. 1 is the enlarged front view representing the first embodiment the present invention being applicable to wrist-watch.

Fig. 2 is for representing the enlarged front view of the clock and watch assembly be assembled in the wrist-watch shown in Fig. 1.

Fig. 3 is for representing the enlarged front view of the first liquid crystal display part and the second liquid crystal display part be assembled in the clock and watch assembly shown in Fig. 2.

Fig. 4 is for representing the amplification view along the A-A arrow in the clock and watch assembly shown in Fig. 2.

Fig. 5 is for representing the amplification view along the B-B arrow in the clock and watch assembly shown in Fig. 2.

Fig. 6 is for representing the amplification view along the C-C arrow in the clock and watch assembly shown in Fig. 2.

Fig. 7 is the enlarged front view of the clock and watch assembly representing the second embodiment the present invention being applicable to wrist-watch.

Fig. 8 is for representing the enlarged front view of the liquid crystal display part be assembled in the clock and watch assembly shown in Fig. 7.

Fig. 9 is for representing the amplification view along the D-D arrow in the clock and watch assembly shown in Fig. 7.

Embodiment

(the first embodiment)

Below, with reference to Fig. 1 ~ Fig. 6, the first embodiment the present invention being applicable to wrist-watch is described.

This wrist-watch is compound as shown in Figure 1, and it has analog functuion and digital function, and has wristwatch case 1.As shown in Figure 2, the inside of this wristwatch case 1 is provided with clock and watch assembly 2.

As shown in Figures 2 and 4, this clock and watch assembly 2 comprises top watchcase 3 and bottom watchcase 4.Between these top watchcase 3 and bottom watchcases 4, be provided with circuit substrate 5.This circuit substrate 5 is configured for controlling and drives the circuit of the entirety of clock and watch assembly 2, and comprises the necessary various electron device (not shown) of clock function.

As shown in Figures 2 and 4, on top watchcase 3, the first hornbook 6 is configured with.The pointer 7 that this first hornbook 6 is configured to hour hands 7a and minute hand 7b etc. operates up and indicates the moment.This first hornbook 6 offers each peristome 8a ~ 8c of the first ~ three.

As shown in Figures 2 and 4, in the downside of this first hornbook 6, the second hornbook 10 is arranged accordingly with the first peristome 8a of the circle be opened in the first hornbook 6.This second hornbook 10 is formed as external diameter and is greater than the discoideus of the internal diameter of the first circular peristome 8a.This second hornbook 10 is configured to, and the function pin 11 of the first little pin 11a and the second little pin 11b etc. operates above it, indicates and represents zebra time, indicating the moment in each city in the such as world this zebra time.

In addition, as shown in Figure 4, bottom watchcase 4 is provided with the first clockwork 12 and the second clockwork 13.This first clockwork 12 possesses the needle pivot 14 that pointer 7 is operated.This needle pivot 14 is configured to, and is protruded from the top of the first hornbook 6 by circuit substrate 5 and top watchcase 3, and installs pointer 7 in this outstanding upper end.

In this case, as shown in Figure 4, needle pivot 14 has the hour hand axle 14a of tubular and is rotatably configured at the minute hand shaft 14b of inside of hour hand axle 14a, they be configured to the central part by being opened in the first hornbook 6 through hole 6a, be opened in top watchcase 3 and the through hole 3a corresponding with the through hole 6a of the first hornbook 6 and be opened in circuit substrate 5 and the through hole 5a corresponding with the through hole 3a of top watchcase 3, protrude from the top of the first hornbook 6.

Thus, as shown in Figure 4, first clockwork 12 is configured to, the hour hand axle 14a of needle pivot 14 and minute hand shaft 14b is made to rotate respectively, the minute hand 7b of the hour hands 7a making the upper end being installed on hour hand axle 14a respectively and the upper end being installed on minute hand shaft 14b operates above the first hornbook 6, indicates the moment thus.

On the other hand, as shown in Figure 4, the second clockwork 13 possesses the functional shaft 15 that function pin 11 is operated.This functional shaft 15 is configured to, and by circuit substrate 5 and top watchcase 3, protrudes from the top of the second hornbook 10, at the upper end installation function pin 11 that this is outstanding.This functional shaft 15 has: the first little needle shaft 15a of tubular; And the second little needle shaft 15b be rotatably configured in this first little needle shaft 15a.

In this case, as shown in Figure 4, functional shaft 15 is configured to, first little needle shaft 15a and the second little needle shaft 15b by be opened in the central part of the second hornbook 10 through hole 10a, be opened in top watchcase 3 and the through hole 3b corresponding with the through hole 10a of the second hornbook 10 and be opened in circuit substrate 5 and the through hole 5b corresponding with the through hole 3b of top watchcase 3, protrude from the top of the second hornbook 10.

Thus, as shown in the Fig. 4 as the amplification view along the A-A arrow in the clock and watch assembly shown in Fig. 2, second clockwork 13 is configured to, first of functional shaft 15 the little needle shaft 15a and the second little needle shaft 15b is made to rotate respectively, thus make the first little pin 11a of the upper end being installed on the first little needle shaft 15a operate above the second hornbook 10 with the second little pin 11b of the upper end being installed on the second little needle shaft 15b respectively, indicate zebra time thus.

But as shown in FIG. 1 to 3, the first liquid crystal display part 16 and the second liquid crystal display part 17 are arranged side by side in top watchcase 3 at grade with the state of the downside being positioned at the first hornbook 6.First liquid crystal display part 16 for border, is configured in the region of the roughly half of 12 sides being positioned at top watchcase 3 with and at 3 at 9.Second liquid crystal display part 17 for border, is configured in the region of the roughly half of 6 sides being positioned at top watchcase 3 with and at 3 at 9.

That is, as shown in FIG. 1 to 3, the first liquid crystal display part 16 is arranged in top watchcase 3 with the state corresponding with the second peristome 8b of 12 sides being arranged at the first hornbook 6.Second liquid crystal display part 17 is arranged in top watchcase 3 with the state corresponding with the 3rd peristome 8c of 6 sides being arranged at the first hornbook 6.

In this case, as shown in the Fig. 6 as the amplification view along the C-C arrow in the clock and watch assembly shown in Fig. 2, with regard to the first liquid crystal display part 16 and the second liquid crystal display part 17, its each part is arranged at the downside of the second hornbook 10.Thus, the second hornbook 10 to stride across the first liquid crystal display part 16, second liquid crystal display part 17, the state of each part of top watchcase 3 is configured to be positioned at its 9 sides in the downside of the first hornbook 6.

In addition, as shown in the Fig. 5 as the amplification view along the B-B arrow in the clock and watch assembly shown in Fig. 2, the first liquid crystal display part 16 possesses: liquid crystal cell 20; Be arranged at this liquid crystal cell 20 above on upside polarization plates 21; And the downside polarization plates 22 be arranged at below liquid crystal cell 20.Liquid crystal cell 20 is configured to, and arranges transparent electrode respectively in the opposed faces of a pair transparent glass substrate 20a, 20b, is sealed with liquid crystal (all not shown) between these glass substrates 20a, 20b.

As shown in Figure 5, this first liquid crystal display part 16 is configured to, be arranged in top watchcase 3, and with the state abutted with the flange part 3c in top watchcase 3 of the outer peripheral edges of liquid crystal cell 20, liquid crystal cell 20 be supported on circuit substrate 5 by built-in connector 23 above.In this case, distance piece 9 is configured with between below the first liquid crystal display part 16 and above circuit substrate 5.

Thus, as shown in Figure 5, first liquid crystal display part 16 is configured to, by making liquid crystal cell 20 and circuit substrate 5 utilize built-in connector 23 to be electrically connected, thus with in the necessary various information of clock function in photovoltaic display moment, date, week etc., the information of such as current time etc.

On the other hand, as shown in Figure 6, the second liquid crystal display part 17 possesses: the liquid crystal cell 24 identical with the liquid crystal cell 20 of the first liquid crystal display part 16; Be arranged at the upside polarization plates 25 above this liquid crystal cell 24; And the downside polarization plates 26 be arranged at below liquid crystal cell 24.In addition, with regard to reflective liquid crystal, also comprise the structure only possessing 1 polarization plates, in this case, downside polarization plates 26 can not also be possessed.Liquid crystal cell 24 is also configured to, and arranges transparent electrode respectively in the opposed faces of a pair transparent glass substrate 24a, 24b, and envelope has liquid crystal (all not shown) between these a pair glass substrate 24a, 24b.Reflecting plate is provided with below downside polarization plates 26.

As shown in Figure 6, the second liquid crystal display part 17 is also configured to, and is configured in top watchcase 3, with the state abutted with the flange part 3c in top watchcase 3 of the outer peripheral edges of liquid crystal cell 24, liquid crystal cell 24 is supported on circuit substrate 5 above by built-in connector 27.In this case, distance piece 9 is configured with between also below the second liquid crystal display part 17 and above circuit substrate 5.

Thus, as shown in Figure 6, second liquid crystal display part 17 is configured to, by making liquid crystal cell 24 and circuit substrate 5 utilize built-in connector 27 and be electrically connected, thus show the information in the necessary various information of clock function in moment, date, week etc., to be such as different from the first liquid crystal display part 16 date, week etc. with photovoltaic.

In this case, as shown in Fig. 3, Fig. 5 and Fig. 6, first, second each notch 21a, 25a to be arranged on above each of the first liquid crystal display part 16 corresponding with the second hornbook 10 and the second liquid crystal display part 17 in mode corresponding with each part of the second hornbook 10 respectively, i.e. the upside polarization plates 21 of the first liquid crystal display part 16 and the upside polarization plates 25 of the second liquid crystal display part 17.

That is, as shown in Figure 3 and Figure 5, the first notch 21a being arranged at the upside polarization plates 21 of the first liquid crystal display part 16 is formed as, for the roughly semicircular part configuration being positioned at the upper avris of 12 sides of the second hornbook 10.Thus, the second hornbook 10 is formed as, and the roughly semicircular part for the upper avris being positioned at 12 sides is configured at the first notch 21a of the upside polarization plates 21 of the first liquid crystal display part 16.

In addition, as shown in Figure 3 and Figure 6, the second notch 25a being arranged at the upside polarization plates 25 of the second liquid crystal display part 17 is formed as, for the roughly semicircular part configuration being positioned at the lower avris of 6 sides of the second hornbook 10.Thus, the second hornbook 10 is formed as, and the roughly semicircular part for the lower avris being positioned at 6 sides is arranged at the second notch 25a of the upside polarization plates 25 of the second liquid crystal display part 17.

In addition, as shown in Figure 4, recess 28 is arranged on above top watchcase 3 accordingly with a part for the second hornbook 10.Namely, the recess 28 of top watchcase 3 is formed as, position between the first liquid crystal display part 16 and the second liquid crystal display part 17 and be positioned at its 9 sides sidepiece near, and continuous at grade with the second notch 25a in the first notch 21a of the first liquid crystal display part 16 and the second liquid crystal display part 17 respectively.

In this case, as shown in Figure 4, with regard to the recess 28 of top watchcase 3, its degree of depth is formed with the length roughly the same with the thickness of the second hornbook 10.In addition, as shown in Figure 5 and Figure 6, with regard to the first notch 21a of the first liquid crystal display part 16 and the second notch 25a of the second liquid crystal display part 17, its degree of depth is formed as the length identical with each thickness of each upside polarization plates 21,25, and is formed as the length of the thickness being less than the second hornbook 10.

Further, as shown in Fig. 2, Fig. 4 ~ Fig. 6, with regard to the second hornbook 10, its external diameter is formed as being greater than the internal diameter of the first peristome 8a being arranged at the first hornbook 6.Be accompanied by this, with regard to the first notch 21a of recess 28, first liquid crystal display part 16 of top watchcase 3 and the second notch 25a of the second liquid crystal display part 17, their overall dimensions is formed as the size roughly the same with the profile of the second hornbook 10.

Thus, as shown in Fig. 4 ~ Fig. 6, second hornbook 10 is configured to, when being configured spreading all over the first notch 21a of recess 28, first liquid crystal display part 16 of top watchcase 3 and the second notch 25a of the second liquid crystal display part 17, abutting with below the inner peripheral of the first peristome 8a of the first hornbook 6 above of the outer peripheral edges of the second hornbook 10.

In addition, as shown in Figures 5 and 6, first liquid crystal display part 16 and the second liquid crystal display part 17 are configured to, in the outer peripheral edges of the second hornbook 10 with when abutting below the first hornbook 6, the upside polarization plates 21 of the first liquid crystal display part 16 above with or not below the first hornbook 6 not the contacting above of the upside polarization plates 25 of the second liquid crystal display part 17, there is gap a little respectively and be configured at the downside of the first hornbook 6.

Next, the effect of this wrist-watch is described.

Usually, by the first clockwork 12, pointer 7 operates above the first hornbook 6, instruction current time.Namely, first clockwork 12 makes the hour hand axle 14a of needle pivot 14 rotate, with this rotation, hour hands 7a is operated above the first hornbook 6, and the minute hand shaft 14b of needle pivot 14 is rotated, with this rotation, minute hand 7b is operated above the first hornbook 6, thus, the moment is indicated by hour hands 7a and minute hand 7b.

In addition, now, by the second clockwork 13, function pin 11 operates above the second hornbook 10, indicates the moment in city in each city in the world in zebra time, that select.Namely, second clockwork 13 makes first of functional shaft 15 the little needle shaft 15a rotate, with this rotation, first little pin 11a is operated above the second hornbook 10, and second of functional shaft 15 the little needle shaft 15b is rotated, with this rotation, second little pin 11b is operated above the second hornbook 10, thus, by the first little pin 11a and the second little pin 11b, indicate the moment in the city selected.

In this case, the function pin 11 of running on the second hornbook 10 is in the downside running on the pointer 7 operated above the first hornbook 6.That is, as shown in Figure 4, the second hornbook 10 configures accordingly with the first peristome 8a of the state and the first hornbook 6 that are positioned at the downside of the first hornbook 6.Thus, the first little pin 11a of function pin 11, above the second hornbook 10, operates in the first peristome 8a of the first hornbook 6.In addition, second of function pin 11 the little pin 11b above the first peristome 8a being positioned at the first hornbook 6 above the second hornbook 10 and the downside of the hour hands 7a of pointer 7 running.

On the other hand, as shown in Figure 6, first liquid crystal display part 16 shows in the information in moment, date, week etc., such as current time with photovoltaic, and this information shown can be watched from the top of wristwatch case 1 by the second peristome 8b being positioned at 12 sides of the first hornbook 6.In addition, second liquid crystal display part 17 with in the information in photovoltaic display moment, date, week etc., the such as date, week, this information shown can be watched from the top of wristwatch case 1 by being positioned at the 3rd peristome 8c of 6 sides of the first hornbook 6.

Like this, according to the clock and watch assembly 2 of this wrist-watch, owing to being operate up and indicate each upside polarization plates 21,25 of first, second each liquid crystal display part 16,17 of the downside of first hornbook 6 in moment to be provided with first, second each notch 21a, 25a of each part configuring the second hornbook 10 respectively being arranged at pointer 7, therefore the structure of first, second liquid crystal display part 16,17 and its circuit structure uncomplicated, the slimming of clock assembly 2 and wrist-watch can be realized.

Namely, in the clock and watch assembly 2 of this wrist-watch, due to the second hornbook 10 can be configured at first, second each notch 21a, the 25a of each upside polarization plates 21,25 of each liquid crystal display part 16,17 being arranged at first, second respectively, even if therefore configure the second hornbook 10 in the downside of the first hornbook 6, each upside polarization plates 21,25 of first, second each liquid crystal display part 16,17 also can be made to be configured close to below the first hornbook 6.Thereby, it is possible to realize the slimming of clock assembly 2 entirety, and the slimming of wrist-watch entirety can be realized.

In addition, in the clock and watch assembly 2 of this wrist-watch, owing to arranging first, second each notch 21a, 25a respectively in each upside polarization plates 21,25 of first, second each liquid crystal display part 16,17, therefore each show electrode of first, second each liquid crystal display part 16,17 does not increase, circuit need not be changed, thus not only each structure of first, second liquid crystal display part 16,17 can not become complicated, and the circuit structure of first, second each liquid crystal display part 16,17 also can not complicate, existing circuit can be passed through, easily and drive well.

In addition, in this clock and watch assembly 2, there is top watchcase 3, this top watchcase 3 configures the first hornbook 6 above, therein to configure the first liquid crystal display part 16 and the second liquid crystal display part 17 close to the state below the first hornbook 6, thus with in the first liquid crystal display part 16 and the state configuring the second hornbook 10 between the second liquid crystal display part 17 and the first hornbook 6, reliably and well the first hornbook 6, first liquid crystal display part 16 and the second liquid crystal display part 17 are assembled in top watchcase 3, can realize blocking thus.

In this case, clock and watch assembly 2 is following structure, there is the first liquid crystal display part 16 and the second liquid crystal display part 17, and the second hornbook 10 strides across the first liquid crystal display part 16 and the second liquid crystal display part 17 is configured, at the first liquid crystal display part 16 and the second hornbook 10 can be assembled compactly between the second liquid crystal display part 17 and the first hornbook 6 thus.

Namely, the first notch 21a of a part for configuration second hornbook 10 is provided with in the upside polarization plates 21 of the first liquid crystal display part 16, the second notch 25a of another part of configuration second hornbook 10 is provided with in the upside polarization plates 25 of the second liquid crystal display part 17, thus can by the second hornbook 10 to be configured at across the state of the first liquid crystal display part 16 and the second liquid crystal display part 17 in first notch 21a with in the second notch 25a.Therefore, it is possible to the second hornbook 10 is set compactly, and can realize slimming.

In this case, top watchcase 3 is provided with recess 28, this recess 28 configures for a remaining part for the second hornbook 10 except the position corresponding with the first liquid crystal display part 16 and the second liquid crystal display part 17, thus, when being configured with the state the second hornbook 10 being striden across the first notch 21a of the first liquid crystal display part 16 and the second notch 25a of the second liquid crystal display part 17, a part for this second hornbook 10 can also be configured at the recess 28 of top watchcase 3.

Thus, to stride across the state of the recess 28 of the first notch 21a of the first liquid crystal display part 16, the second notch 25a of the second liquid crystal display part 17 and top watchcase 3, second hornbook 10 can be configured on same plane well, therefore, it is possible to make abutting with below the inner peripheral of the first peristome 8a of the first hornbook 6 of the outer peripheral edges of the second hornbook 10 above, thus the first liquid crystal display part 16 and each of the second liquid crystal display part 17 are arranged above close to below the first hornbook 6.Thus, even if possess the second hornbook 10, the slimming of clock and watch assembly 2 can also be realized.

In addition, in this clock and watch assembly 2, offer at the first hornbook 6: the first peristome 8a corresponding to the second hornbook 10; The second peristome 8b corresponding to first liquid crystal display part 16; And second the 3rd peristome 8c corresponding to liquid crystal display part 17, therefore, it is possible to by the first peristome 8a, watch the second hornbook 10 from the top of the first hornbook 6.In addition, second peristome 8b can be passed through, the information of the current time being shown in the first liquid crystal display part 16 etc. is watched from the top of the first hornbook 6, and can the 3rd peristome 8c be passed through, watch the information on the date, week etc. that are shown in the second liquid crystal display part 17 from the top of the first hornbook 6.

(the second embodiment)

Next, with reference to Fig. 7 ~ Fig. 9, the second embodiment the present invention being applicable to wrist-watch is described.In addition, for the part identical with the first embodiment shown in Fig. 1 ~ Fig. 6, mark same-sign is described.

As shown in Figure 9, this wrist-watch is arrange the structure of 1 liquid crystal display part 30 at top watchcase 3 in the mode spreading all over roughly whole region, and structure is in addition roughly the same with the first embodiment.

That is, this liquid crystal display part 30 possesses: liquid crystal cell 31; Be arranged at the upside polarization plates 32 above this liquid crystal cell 31; And the downside polarization plates 33 be arranged at below this liquid crystal cell 31.Identically with the first embodiment, liquid crystal cell 31 is configured to arrange transparent electrode respectively in the opposed faces of a pair transparent glass substrate 31a, 31b, is sealed with liquid crystal (all not shown) between these a pair glass substrate 31a, 31b.

As shown in Figure 9, this liquid crystal display part 30 is configured to, and is configured in top watchcase 3, and with the state abutted with the flange part 3c in top watchcase 3 above of the outer peripheral edges of liquid crystal cell 31, liquid crystal cell 31 is supported on circuit substrate 5 by built-in connector 34.In this case, distance piece 9 is configured with between also below liquid crystal display part 30 and above circuit substrate 5.Thus, with regard to liquid crystal display part 30, liquid crystal cell 31 is electrically connected by built-in connector 34 with circuit substrate 5, with the necessary various information of clock function in photovoltaic display moment, date, week etc.

In this case, as shown in Figure 9, the mode being positioned at the upside of liquid crystal display part 30 with the first hornbook 6 on top watchcase 3 is arranged.Identically with the first embodiment, this first hornbook 6 is configured to, and the pointer 7 of hour hands 7a and minute hand 7b etc. operates up and indicates the moment.As shown in Fig. 7 and Fig. 9, on this first hornbook 6 with in the region of liquid crystal display part 30, be provided with the first peristome 35a and the second peristome 35b accordingly.

As shown in Fig. 7 and Fig. 9, the first peristome 35a is positioned at 9 sides of the first hornbook 6 with the state corresponding with in the region of liquid crystal display part 30 and is set to toroidal.Second peristome 35b, except the first peristome 35a of toroidal, is arranged at the roughly whole region of the first hornbook 6 accordingly with liquid crystal display part 30.

In addition, as shown in Fig. 7 and Fig. 9, in the downside of the first hornbook 6, the mode that the first peristome 35a with the circle be arranged on the first hornbook 6 is corresponding is provided with the second hornbook 10.This second hornbook 10 is formed as the internal diameter that its external diameter is greater than the first circular peristome 35a.This second hornbook 10 is configured to, and the function pin 11 of the first little pin 11a and the second little pin 11b etc. operates above it, thus indicates and represent zebra time in the moment in each city such as indicating the world.

But as shown in Figure 8 and Figure 9, this second hornbook 10 is configured in the notch 32a of the circular shape of the upside polarization plates 32 being located at liquid crystal display part 30.It is the length identical with the thickness of upside polarization plates 32 that this notch 32a is formed as its degree of depth, and is the length of the thickness that is slightly shorter than the second hornbook 10.In addition, the size that this notch 32a is formed as these entirety becomes the size roughly the same with the profile of the second hornbook 10.

Thus, as can be seen from figures 8 and 9, the second hornbook 10 is configured to, time in the notch 32a being configured at liquid crystal display part 30, and abutting with below the inner peripheral of the first peristome 35a of the first hornbook 6 above of the outer peripheral edges of the second hornbook 10.In addition, liquid crystal display part 30 is configured to, in the outer peripheral edges of the second hornbook 10 with when abutting below the first hornbook 6, with below the first hornbook 6 not contacting above of upside polarization plates 32, is configured at the downside of the first hornbook 6 in the mode with gap a little.

In this case, as shown in Fig. 7 ~ Fig. 9, the first clockwork 12 that pointer 7 is operated is configured to, and its needle pivot 14 by distance piece 9, liquid crystal display part 30 and the first hornbook 6 in circuit substrate 5, top watchcase 3, thus protrudes from the top of the first hornbook 6.Namely, needle pivot 14 is configured to, by be opened in circuit substrate 5 through hole 5a, be opened in distance piece 9 through hole 9a, be opened in the through hole 30a of liquid crystal display part 30 and be opened in the through hole 6a of the first hornbook 6, protrude from the top of the first hornbook 6.

Thus, as shown in Fig. 7 and Fig. 9, first clockwork 12 is configured to, the hour hand axle 14a of needle pivot 14 and minute hand shaft 14b is made to rotate respectively, thus the minute hand 7b of the upper end making the hour hands 7a of the upper end being installed on hour hand axle 14a and be installed on minute hand shaft 14b operates respectively above the first hornbook 6, indicates the moment thus.

In addition, as shown in Fig. 7 ~ Fig. 9, the second clockwork 13 that function pin 11 is operated is configured to, and its functional shaft 15, by the first peristome 35a of distance piece 9, liquid crystal display part 30 and the first hornbook 6 in circuit substrate 5, top watchcase 3, protrudes from the top of the second hornbook 10.

Namely, as shown in Fig. 7 ~ Fig. 9, this functional shaft 15 is configured to, by be opened in the through hole 5b of circuit substrate 5, the distance piece 9 be opened in top watchcase 3 through hole 9b, be opened in the through hole 30b of liquid crystal display part 30 and the first peristome 35a of the first hornbook 6, protrude from the top of the second hornbook 10.

Thus, as shown in Fig. 7 and Fig. 9, second clockwork 13 is configured to, first of functional shaft 15 the little needle shaft 15a and the second little needle shaft 15b is made to rotate respectively, thus the first little pin 11a of the upper end being installed on the first little needle shaft 15a is operated respectively with the second little pin 11b of the upper end being installed on the second little needle shaft 15b above the second hornbook 10, indicate zebra time thus.

Next, the effect of this wrist-watch is described.

Usually, identically with the first embodiment, by the first clockwork 12, pointer 7 is operated above the first hornbook 6, thus instruction current time.In addition, now, by the second clockwork 13, function pin 11 is operated above the second hornbook 10, thus indicate the moment in each city in the world of zebra time, selected city.On the other hand, liquid crystal display part 30 with the information in photovoltaic display moment, date, week etc., this shown information by be opened in the first hornbook 6 the second peristome 35b can from the top view of wristwatch case 1 to.

In this case, the downside running of the pointer 7 that the function pin 11 on the second hornbook 10 operates above the first hornbook 6 is run on.That is, as shown in Figure 10, the second hornbook 10 configures accordingly with the first peristome 35a of the state with the first hornbook 6 that are positioned at the downside of the first hornbook 6.Thus, first of function pin 11 the little pin 11a to operate above the second hornbook 10 in the first peristome 35a of the first hornbook 6.In addition, second of function pin 11 the little pin 11b operates in the downside of the hour hands 7a of pointer 7 above the first peristome 35a being positioned at the first hornbook 6 above the second hornbook 10.

Like this, according to the clock and watch assembly 2 of this wrist-watch, owing to being operate up and indicate the upside polarization plates 32 of the liquid crystal display part 30 of the downside of first hornbook 6 in moment to offer the structure of notch 32a configured for the second hornbook 10 being configured at pointer 7, therefore identically with the first embodiment, structure and the circuit structure thereof of liquid crystal display part 30 are uncomplicated, can realize the slimming of clock and watch assembly 2 and wrist-watch.

Namely, in the clock and watch assembly 2 of this wrist-watch, due to the second hornbook 10 can be configured at the notch 32a of the upside polarization plates 32 being opened in liquid crystal display part 30, even if therefore configure the second hornbook 10 in the downside of the first hornbook 6, also the upside polarization plates 32 of liquid crystal display part 30 can be made to arrange close to below the first hornbook 6, thus identically with the first embodiment, the slimming of clock and watch assembly 2 entirety can be realized, and the slimming of wrist-watch entirety can be realized.

In addition, in the clock and watch assembly 2 of this wrist-watch, because the upside polarization plates 32 only at liquid crystal display part 30 arranges notch 32a, therefore identically with the first embodiment, the show electrode of liquid crystal display part 30 can not increase and decrease, and need not change circuit, therefore the structure of liquid crystal display part 30 not only can not be made to become complicated, nor the circuit structure of liquid crystal display part 30 can be made to become complicated, can existing circuit be passed through, easily and drive well.

In addition, in clock and watch assembly 2, possess the first hornbook 6 be arranged at above and be configured at inside in the mode making liquid crystal display part 30 be positioned at the downside of the first hornbook 6, thus identically with the first embodiment, under the state configuring the second hornbook 10 between the first hornbook 6 and liquid crystal display part 30, reliably and well the first hornbook 6 and liquid crystal display part 30 are assembled in top watchcase 3, can realize blocking thus.

In this case, clock and watch assembly 2 is that liquid crystal display part 30 is arranged at the roughly whole region of top watchcase 3 and the second hornbook 10 is configured at the structure of liquid crystal display part 30, can assemble the second hornbook 10 compactly thus between the first hornbook 6 and liquid crystal display part 30.

That is, be provided with the notch 32a configured for the second hornbook 10 in the upside polarization plates 32 of liquid crystal display part 30, the second hornbook 10 can be configured in the notch 32a of liquid crystal display part 30 well thus.Therefore, it is possible to configure the second hornbook 10 compactly, and slimming can be realized.

In this case, time in the notch 32a the second hornbook 10 being configured at liquid crystal display part 30, abutting with the inner peripheral of the first peristome 8a of the first hornbook 6 below above of the outer peripheral edges of the second hornbook 10 can be made, can make liquid crystal display part 30 above with the first hornbook 6 below close and arrange.Thus, even if possess the second hornbook 10, the slimming of clock and watch assembly 2 can also be realized.

In addition, in this clock and watch assembly 2, owing to being provided with the first peristome 35a corresponding to the second hornbook 10 and the second peristome 35b corresponding to liquid crystal display part 30 at the first hornbook 6, therefore, it is possible to by the first peristome 35a, from the top view of the first hornbook 6 to the second hornbook 10, the information in the moment, date, week etc. that are shown in liquid crystal display part 30 can be watched by the second peristome 35b from the top of the first hornbook 6.

In addition, in first, second embodiment above-mentioned, to be applicable to by above the second hornbook 10 running function pin 11 indicate the moment in each city in the world zebra time function situation describe, but be not limited to this, such as, also go for the function of measuring of stopwatch function, indicated air temperature, air pressure etc., indicate the pattern deixis etc. of the pattern of clock and watch.

Further, in first, second each embodiment above-mentioned, the field situation of function pin 11 in needle-like of running above the second hornbook 10 is described, but, be not limited to this, also can be configured to, such as, function aciculiform is become circle to represent that the moon is full, wane.

Further, in first, second each embodiment above-mentioned, describe the situation being applicable to wrist-watch, but not necessarily necessarily require, into wrist-watch, the various clock and watch of such as travel schedule, alarm clock, desk clock, wall clock etc. can be applicable to.In addition, be not limited to clock and watch, the electronic equipment of portable phone, mobile information apparatus etc. can also be applicable to.

Above, several embodiment of the present invention is illustrated, but the present invention is not limited to this, present invention resides in the invention recorded in claims and the scope be equal to it.

Claims (10)

1. an assembly, is characterized in that, possesses:

First hornbook, this first hornbook has peristome, and pointer is operated above it and indicates the moment;

Second hornbook, this second hornbook and above-mentioned peristome are configured at the downside of above-mentioned first hornbook accordingly, and for making the function pin overlapping with above-mentioned pointer operate and deixis above it; And

Liquid crystal display part, this liquid crystal display part is configured at the downside of above-mentioned first hornbook and the downside of above-mentioned second hornbook, and comprise liquid crystal cell and upside polarization plates, the position above and corresponding to above-mentioned second hornbook that on the upside of this, polarization plates is arranged at above-mentioned liquid crystal cell is provided with notch.

2. assembly according to claim 1, is characterized in that,

Possesses above-mentioned liquid crystal display part to be configured at inner housing close to the state below above-mentioned first hornbook.

3. assembly according to claim 1, is characterized in that,

Above-mentioned liquid crystal display part has the first liquid crystal display part and the second liquid crystal display part.

4. assembly according to claim 1, is characterized in that,

Above-mentioned notch possesses: the first notch, and this first notch is arranged at the above-mentioned upside polarization plates of above-mentioned first liquid crystal display part and the part for above-mentioned second hornbook configures; And second notch, this second notch is arranged at the above-mentioned upside polarization plates of above-mentioned second liquid crystal display part and the another part for above-mentioned second hornbook configures.

5. assembly according to claim 2, is characterized in that,

Possess: be arranged at the downside polarization plates below above-mentioned liquid crystal cell; And the reflecting plate be arranged at below the polarization plates of above-mentioned downside,

Above-mentioned housing is provided with recess, and this recess is for the part configuration of above-mentioned second hornbook except the position corresponding to above-mentioned first liquid crystal display part and above-mentioned second liquid crystal display part.

6. assembly according to claim 3, is characterized in that,

The above-mentioned peristome of above-mentioned first hornbook has: the first peristome corresponding to above-mentioned second hornbook; The second peristome corresponding to above-mentioned first liquid crystal display part; And the 3rd peristome corresponding to above-mentioned second liquid crystal display part.

7. assembly according to claim 1, is characterized in that,

Above-mentioned liquid crystal display part is arranged at the roughly whole region of above-mentioned housing.

8. assembly according to claim 7, is characterized in that,

Above-mentioned notch is arranged at the above-mentioned upside polarization plates of above-mentioned liquid crystal display part and configures for above-mentioned second hornbook.

9. assembly according to claim 7, is characterized in that,

The above-mentioned peristome of above-mentioned first hornbook has: first peristome corresponding with above-mentioned second hornbook; And second peristome corresponding with above-mentioned liquid crystal display part.

10. clock and watch, is characterized in that,

Possesses the assembly according to any one of claim 1 ~ 9.