CN202331023U

CN202331023U - Dynamic clock

Info

Publication number: CN202331023U
Application number: CN2011203953542U
Authority: CN
Inventors: 夏山纯
Original assignee: SHENZHEN POWER GROUP
Current assignee: SHENZHEN POWER GROUP
Priority date: 2011-10-14
Filing date: 2011-10-14
Publication date: 2012-07-11
Anticipated expiration: 2021-10-14

Abstract

The utility model discloses a dynamic clock. The dynamic clock comprises a base wheel, a plurality of first final gears, and a plurality of digital modules which are corresponding to and respectively positioned on the plurality of final gears, wherein the plurality of digital modules rotate under the control of the base wheel. The dynamic clock can be automatically controlled to rotate within an integral point or a half point or a predetermined moment or can be controlled manually to rotate the clock faces of these modules by a push button at any moment, so that the dynamic sense of the clock is increased; moreover, the dynamic clock can remind the user to be on time at any time, thus increasing the practicability in the using process and stratifying the current dynamic visual enjoyment requirements of the user.

Description

Dynamic clock

[technical field]

The utility model relates to a kind of clock, particularly a kind of dynamic clock.

[background technology]

Traditional pointer desk clock, wall clock, no matter it is mechanical type or half-electron half mechanical drive mechanism, when its clock face removes, divides, and outside the pointer of second can move, does not have other movable designs.Traditional clock clock face is generally an actionless clock face that is printed on 12 numerals, and all be to be in actionless state 24 hours every days, though the clock that has has the integral point time reporting function, also can only hear sound, can't see the action of clock face.Traditional desk clock, wall clock changes and U.S. decorations for making its rich tool, on clock face, carry out the colored drawing special pattern at the most and handle attracting the consumer, but its to paint or print the pattern of establishing also be a not planar design of kinetoplast, only increase its aesthetic feeling at the most.So this not the clock and watch that change with activity of tool more and more do not meet the demand of modern to dynamic products.

[utility model content]

Be the actionless problem of the design that overcomes prior art, the utility model provides a kind of dynamic clock.

The technical scheme of the utility model technical solution problem is: a kind of dynamic clock is provided; It comprises a base wheel, and a plurality of first final stage gears reach with these a plurality of first final stage gear mesh and answer; Locate a plurality of digital modules on it respectively, these a plurality of digital modules are rotated under the control of base wheel.

Preferably, further comprise a plurality of second final stage gears, and answer that locate a plurality of pattern modules on it respectively, these a plurality of pattern modules are rotated under the control of base wheel with these a plurality of two final stage gear mesh.

Preferably, each digital module can comprise one, two, or hour when a plurality of.

Preferably, further comprise a micromotor, at integral point, the least bit or special time point control should this digital module rotations of base wheel drive.

Preferably, further comprise a micromotor, at integral point, the least bit or special time point control should this digital modules of base wheel drive, pattern module, or this digital module and pattern module rotation.

Preferably, the angle of this rotation is 90 degree, 180 degree, 270 degree or 360 degree.

Preferably, further comprise gear one No. 1, one No. 2 gears, one No. 3 gears, one No. 4 gears, this four gear provide driving-chain to this base wheel, and these No. 2 gears and No. 3 gears are a coaxial compound gear.

Preferably; This base wheel comprises the first base wheel and the second base wheel; This first base is taken turns with the second basic wheel coaxial, and these a plurality of first final stage gears equidistantly distribute along the excircle of this first base wheel respectively, respectively with this first basic gear teeth interlock of taking turns; These a plurality of second final stage gears equidistantly distribute along the excircle of this second base wheel respectively, respectively with this second basic gear teeth interlock of taking turns.

Compared to prior art; The dynamic clock increase of the utility model can be at the clock face of integral point or the least bit or predetermined instant rotation; Thereby increased dynamic sense, can also remind user's timeliness at any time, to have increased the demand of the practicality in the use with present people's the dynamic enjoyment of vision.Again further increase can be between integral point or the least bit or predetermined instant in the digital module of rotation; Increased simultaneously and can cooperate pattern module in relative rotation with it; Thereby dynamic sense and aesthetics have further been increased, to satisfy the demand of present people to fine family product.

[description of drawings]

Fig. 1 is the synoptic diagram of dynamic clock first embodiment of the utility model, and it removes the movable digital module of part, dots.

Fig. 2 is the synoptic diagram of dynamic clock first embodiment of the utility model, and it shows 6 movable digital modules.

Fig. 3 is the diagrammatic cross-section of dynamic clock shown in Figure 1.

Fig. 4 is the synoptic diagram of dynamic clock second embodiment of the utility model.

Fig. 5 is the diagrammatic cross-section of dynamic clock shown in Figure 4.

[embodiment]

In order to make the purpose of the utility model, technical scheme and advantage are clearer, below in conjunction with accompanying drawing and embodiment, the utility model are further elaborated.Should be appreciated that specific embodiment described herein only in order to explanation the utility model, and be not used in qualification the utility model.

Like Fig. 1, Fig. 2 and shown in Figure 3, the dynamic clock 100 of the utility model comprise 9, one No. 2 gears 10 of 8, one No. 1 gears of micromotor one by one; 13,6 final stage gear 14a of 11, one No. 4 gears of one No. 3 gears, 12, one base wheels, 14b; 14c, 14d, 14e, 14f, 6 digital modules 1; 2,3,4,5,6 and first travel switch 15 and second travel switch 16.10, No. 3 gears 11 of 9, No. 2 gears of this No. 1 gear; No. 4 gears 12, base wheel 13 is formed fixed axis gear system, and its transmission is from the power of this micromotor 8; Wherein these No. 2 gears 10 and No. 3 gears 11 are a coaxial compound gear; Rotating speed is identical, and this No. 1 gear 9 drives these No. 2 gears 10, and these No. 3 gears 11 drive these No. 4 gears 12.

11, No. 4 gears of 10, No. 3 gears of 9, No. 2 gears of this No. 1 gear 12 are formed a driving-chain, are arranged at arbitrary position of this dynamic clock 100, and its transmission takes turns 13 from power to this base of this micromotor 8.The wheel shaft of this base wheel 13 (figure does not show) is arranged at the center of this

dynamic clock

100,6

final stage gear

14a, and 14b, 14c, 14d, 14e, 14f equidistantly distributes along the excircle of this base wheel 13, takes turns 13 gear teeth interlocks with this base respectively.These 6

digital modules

1,2,3,4,5,6 are positioned this 6 final stage gear 14a respectively, 14b, and 14c, 14d, 14e on the wheel shaft of 14f, receives this 6

final stage gear

14a, 14b, 14c, 14d, 14e, the drive of 14f.

This each digital module comprises one first module, one second module and a junction, in the present embodiment; This digital module 1 comprises first module 101, is used to show hours 9, the second module 102; Be used to show the hour 10; And a junction 103, it connects this first module 101 and this second module 102, and this connecting portion 103 is positioned on the wheel shaft of this final stage gear 14a; This digital module 2 comprises first module 201, is used to show hours 11, the second module 202, is used to show the hour 12, and a junction 203, and it connects this first module 201 and this second module 202, and this connecting portion 203 is positioned on the wheel shaft of this final stage gear 14b; This digital module 3 comprises first module 301, is used to show hour 1, the second module 302, is used to show the hour 2, and a junction 303, and it connects this first module 301 and this second module 302, and this connecting portion 303 is positioned on the wheel shaft of this final stage gear 14c; This digital module 4 comprises first module 401, is used to show hours 3, the second module 402, is used to show the hour 4, and a junction 403, and it connects this first module 401 and this second module 402, and this connecting portion 403 is positioned on the wheel shaft of this final stage gear 14d; This digital module 5 comprises first module 501, is used to show hours 5, the second module 502, is used to show the hour 6, and a junction 503, and it connects this first module 501 and this second module 502, and this connecting portion 503 is positioned on the wheel shaft of this final stage gear 14e; This digital module 6 comprises first module 601, is used to show hours 7, the second module 602, is used to show the hour 8, and a junction 603, and it connects this first module 601 and this second module 602, and this connecting portion 603 is positioned on the wheel shaft of this final stage gear 14f.

In the process of using, when the time is whenever gone to the integral point or the least bit, the control circuit of the dynamic clock 100 of the utility model (figure does not show) will provide electric signal to this micromotor 8 according to preset program, to provide forward rotation power to this No. 1 gear 9; Closed the trip switch 15 simultaneously, and give this base wheel 13 through 10, No. 3 gears 11 of these No. 2 gears and No. 4 gear 12 transmissions, and drive these 6 final stage gear 14a by this base wheel 13; 14b, 14c, 14d, 14e; The

digital module

1,2,3 that 14f is last; 4,5,6 are rotated in the forward and open.When this

digital module

1,2,3,4,5; 6 rotate to 270 ° angle after, the trip switch 16 closures, and moment open, provide backward rotation power to this No. 1 gear 9 through its this micromotor 8 of control circuit control simultaneously, and through these No. 2 gears 10; This base wheel 13 is given in No. 3 gears 11 and No. 4 gear 12 transmissions, and drives these 6

final stage gear

14a, 14b, 14c, 14d by this base wheel 13; 14e, the

digital module

1,2,3 that 14f is last; 4,5,6 carry out reverse rotation breaks off the trip switch 15 when resetting, thereby the power that cuts off this micromotor 8 is up to the next one preset integral point or the least bit.

Compared to prior art; The dynamic clock 100 of the utility model increases can be at the clock face of integral point or the least bit or predetermined instant rotation; Thereby increased dynamic sense, can also remind user's timeliness at any time, to have increased the demand of the practicality in the use with present people's the dynamic enjoyment of vision.

Like Fig. 4 and shown in Figure 5, the dynamic clock 200 of the utility model is the utility model second embodiment synoptic diagram, and it has similar structure with the dynamic clock 100 of first embodiment, except original hase wheel 13 becomes the first simultaneously controlled base wheel 213a and the second base wheel 213b.This first base wheel 213a and 6 first final stage gears (have only shown 214b, 214e) have cooperated, controlled the

digital module

21,22 on it; 23,24,25,26; And this second base wheel 213b and other 6 second final stage gears (have only shown 224b, 224e) have cooperated, controlled 6 pattern modules 721,722 that increase newly on it; 723,724,725,276.In the process of using, when the time is whenever gone to the integral point or the least bit, the control circuit of the dynamic clock 200 of the utility model (figure does not show) will provide electric signal to this micromotor 28 according to preset program, to provide forward rotation power to this No. 1 gear 29; Closed the trip opens 215 simultaneously, and takes turns the 213a and the second base wheel 213b for this first base through 210, No. 3 gears 211 of these No. 2 gears and No. 4 gear 212 transmissions, and (has only shown 224b by these 6 second final stage gears of this second base wheel 213b drive; Pattern module 721,722,723,724 224e); 725,276 are rotated in the forward and open, when this pattern module 721,722; 723,724,725,276 rotate to 90 ° angle after; Touch finger 90, drive these 6 first final stage gears and (only shown 214b, the

digital module

21,22 on 214e) thereby touch this first base wheel 213a; 23,24,25,26 are rotated in the forward and open.When this

digital module

21,22,23,24,25; 26 rotate to 270 ° angle after, the trip switch 16 closures, and moment open, provide backward rotation power to this No. 1 gear 29 through its this micromotor 28 of control circuit control simultaneously, and through these No. 2 gears 210; No. 3 gears 211 and No. 4 gear 212 transmissions drive these 6 second final stage gears for this second base wheel 213b (only to have shown 224b, the pattern module 721,722,723,724 on 224e); 725,276 carry out reverse rotation resets, when this pattern module 721,722,723; 724,725,276 rotate to 90 ° angle after, touch finger 90; Thereby touching this first base wheel 213a drives these 6 first final stage gears and (has only shown 214b, the

digital module

21,22,23 on 214e); 24,25,26 carry out reverse rotation breaks off the trip switch 215 when resetting, thereby the power that cuts off this micromotor 28 is up to the next one preset integral point or the least bit.

Compared to prior art; The dynamic clock 200 of the utility model not only increases can be at the digital module of integral point or the least bit or predetermined instant rotation; Increased simultaneously and can cooperate pattern module in relative rotation with it; Thereby dynamic sense and aesthetics have further been increased, to satisfy the demand of present people to fine family product.

The utility model is not limited to above embodiment, can be arbitrary time point of presetting like the time point of its rotation; In addition the direction of its rotation can be earlier reverse forward again; The angle of its rotation can be 270 degree or 180 degree or 90 degree again; Another this pattern module can be the one deck on the embodiment two, can also be for two-layer or three layers; This pattern module and this digital module can rotate during relative mistake in the same way, also backward rotation simultaneously, backward rotation in the time of can also differing from; Hour in the time of can being provided with two on this each digital module again, hour when one or three or more also can be set.

The above is merely the preferred embodiment of the utility model, and not in order to restriction the utility model, all any modifications of within the principle of the utility model, being done are equal to replacement and improvement etc. and all should comprise within the protection domain of the utility model.

Claims

1. dynamic clock, it comprises a base wheel, a plurality of first final stage gears, and with this a plurality of first final stage gear mesh should, location a plurality of digital modules on it respectively, it is characterized in that: these a plurality of digital modules are rotated under the control that base is taken turns.

2. dynamic clock as claimed in claim 1 is characterized in that: further comprise a plurality of second final stage gears, and answer with this two final stages gear mesh that locate a plurality of pattern modules on it respectively, these a plurality of pattern modules are rotated under the control of base wheel.

3. dynamic clock as claimed in claim 1 is characterized in that: each digital module can comprise one, two, or hour when a plurality of.

4. dynamic clock as claimed in claim 1 is characterized in that: further comprise a micromotor, at integral point, the least bit or special time point control should this digital module rotations of base wheel drive.

5. dynamic clock as claimed in claim 2 is characterized in that: further comprise a micromotor, at integral point, the least bit or special time point control should this digital modules of base wheel drive, pattern module, or this digital module and pattern module rotation.

6. dynamic clock as claimed in claim 1 is characterized in that: the angle of this rotation is 90 degree, 180 degree, 270 degree or 360 degree.

7. like the arbitrary described dynamic clock of claim 1 to 6, it is characterized in that: further comprise gear one No. 1, one No. 2 gears, one No. 3 gears, one No. 4 gears, this four gear provide driving-chain to this base wheel, and these No. 2 gears are coaxial with No. 3 gears.

8. dynamic clock as claimed in claim 2; It is characterized in that: this base wheel comprises the first base wheel and the second base wheel; This first base is taken turns with the second basic wheel coaxial, and these a plurality of first final stage gears equidistantly distribute along the excircle of this first base wheel respectively, respectively with this first basic gear teeth interlock of taking turns; These a plurality of second final stage gears equidistantly distribute along the excircle of this second base wheel respectively, respectively with this second basic gear teeth interlock of taking turns.