CN204496174U - Count during digital pointer - Google Patents

Abstract

Count when the utility model relates to a kind of digital pointer, comprising: the first pointer (11), it is connected with the driving shaft (14) of the first motor (12); Second pointer (21), it is also arranged independently of each other with the first pointer (11) is coaxial, and the second pointer (21) is connected with the driving shaft (24) of the second motor (22) by the second pointer gear group (23); First motor (12) and the second motor (22) are connected with microprocessor respectively; Microprocessor and multiple control device (41,42,43) connect.Microprocessor is from control device (41,42,43) receiving the instruction of user, the first pointer (11) and the second pointer (21) being moved to assigned scale on surface to show the output of microprocessor according to controlling driving first motor (12) and the second motor (22) after default programmed process.

Description

Count during digital pointer

Technical field

The present invention relates to clock and watch, particularly count during the digital pointer of one.

Background technology

Along with the progress of science and technology, the functional requirement of consumer to clock and watch product is more and more higher.Therefore, most clock and watch product provides several functions all simultaneously, such as, be code table, 24 hours pointers, GMT pointers etc.But, because each pointer is all connected by gear set, therefore the structure that need involve complexity just accurately can control the information that each pointer moves to appropriate location display needs, therefore increases the cost of clock and watch product, and the difficult consumer to different estate promotes.

Summary of the invention

The object of the invention is to overcome the shortcoming of prior art and deficiency, provide during a kind of digital pointer and count, it has, and structure is simple, the advantage of low cost of manufacture, accurately can provide several functions.

Object of the present invention is achieved through the following technical solutions:

Count during a kind of digital pointer, comprising:

First pointer, it is connected with the driving shaft of the first motor;

Second pointer, it is also arranged independently of each other with the first pointer is coaxial, and the second pointer is connected with the driving shaft of the second motor by the second pointer gear group;

First motor and the second motor are connected with microprocessor respectively; Microprocessor is connected with multiple control device.Microprocessor receives the instruction of user from control device, the first pointer and the second pointer is moved to assigned scale on surface to show the output of microprocessor according to controlling driving first motor and the second motor after default programmed process.Wherein, microprocessor how from control device receive user instruction, how control driving first motor and the second motor belongs to prior art, not technical essential of the present invention according to the instruction presetting programmed process user.Of the present invention focusing on separately controls each pointer with independently motor, and therefore each pointer can independence and freedom move, and connects with gear set mutually without the need to the pointer of picture prior art and must be implicative of each other.

In certain embodiments, the present invention also comprises the 3rd pointer, and itself and the first pointer and the second pointer disalignment are also arranged independently of each other; 3rd pointer is connected with the driving shaft of the 3rd motor; 3rd motor is connected with microprocessor.Microprocessor receives the instruction of user from control device, the 3rd pointer is moved to assigned scale on surface to show the output of microprocessor according to controlling driving the 3rd motor after default programmed process.

In certain embodiments, the present invention also comprises the 3rd pointer, its with the first pointer and the second pointer coaxial and arrange independently of each other; 3rd pointer is connected with the driving shaft of the 3rd motor by the 3rd pointer gear group; 3rd motor is connected with microprocessor.Microprocessor receives the instruction of user from control device, the 3rd pointer is moved to assigned scale on surface to show the output of microprocessor according to controlling driving the 3rd motor after default programmed process.

In certain embodiments, one of them gear of the second pointer gear group can be the first Fumction display rotating disk and coaxially connects; Second pointer gear group can be connected with the 4th gear, and the 4th gear is that the second Fumction display rotating disk is coaxial.First Fumction display rotating disk and the second Fumction display rotating disk can be such as 24 hours rotating disks, life rotating disks etc.

In certain embodiments, the present invention also comprises rotating disk, and it is connected by the driving shaft of disk gear with the 3rd motor, and the 3rd motor is connected with microprocessor; The lower face of meter when rotating disk is located at, surperficial corresponding rotating disk arranges window and exposes for part rotating disk.

In certain embodiments, the present invention also comprises runner, and its rotating shaft is horizontally disposed with, and is connected with the driving shaft of the 3rd motor, and the 3rd motor is connected with microprocessor.

In certain embodiments, the present invention also comprises the sublist dish of the bottom surface being located at a scalloped recess, be located at the bottom surface of scalloped recess sublist index and be arranged at scalloped recess side and towards sublist index direction convex to locating convex block; The position of locating convex block is corresponding with sublist index, and with 0 of sublist dish at a distance of a predetermined angular, continues counterclockwise to rotate to stop sublist index when sublist index counterclockwise turns to contact locating convex block.Sublist index is connected with the driving shaft of a motor, and described motor is connected with microprocessor; Microprocessor is connected with multiple control device.

In certain embodiments, the present invention also comprises sublist dish, is arranged at sublist index on sublist dish and corresponding sublist index and is arranged at Location resilient piece on sublist dish; Sublist index side is flat sides set, and opposite side establishes inclined-plane on top; Location resilient piece forms a V-arrangement by the first elastic arm and the second elastic arm, and its open horizontal is arranged; The open end of the second elastic arm and 0 of sublist dish are at a distance of a predetermined angular, and it is corresponding with the top of sublist index, stop sublist index to continue counterclockwise to rotate counterclockwise to turn at sublist index when its flat sides set contacts the open end of the second elastic arm, but when allowing that sublist index clockwise direction turns to the open end touching its inclined-plane second elastic arm, the second elastic arm is pressed to the first elastic arm and continues clockwise direction and rotate.Sublist index is connected with the driving shaft of a motor, and described motor is connected with microprocessor; Microprocessor is connected with multiple control device.

In certain embodiments, the present invention also comprises sublist dish, be arranged at sublist index on sublist dish and corresponding sublist index is arranged at location male member on sublist dish, location male member and sublist dish a 0 apart predetermined angular; The aspect ratio sublist index of location male member is high, stops sublist index to continue counterclockwise to rotate during counterclockwise to turn to contact location male member at sublist index.Sublist index is connected with the driving shaft of a motor, and described motor is connected with microprocessor; Microprocessor is connected with multiple control device.

Accompanying drawing explanation

Fig. 1 is the front view of first embodiment of the invention.

Fig. 2 is the structural representation of first embodiment of the invention.

Fig. 3 is another structural representation of first embodiment of the invention.

Fig. 4 is the front view of second embodiment of the invention.

Fig. 5 is the structural representation of second embodiment of the invention.

Fig. 6 is another structural representation of second embodiment of the invention.

Fig. 7 is the front view of third embodiment of the invention.

Fig. 8 is the structural representation of third embodiment of the invention.

Fig. 9 is the front view of four embodiment of the invention.

Figure 10 is the structural representation of four embodiment of the invention.

Figure 11 is another structural representation of four embodiment of the invention.

Figure 12 is the front view of fifth embodiment of the invention.

Figure 13 is the structural representation of fifth embodiment of the invention.

Figure 14 is another structural representation of fifth embodiment of the invention.

Figure 15 is the front view of sixth embodiment of the invention.

Figure 16 is the structural representation of sixth embodiment of the invention.

Figure 17 is another structural representation of sixth embodiment of the invention.

Embodiment

Below in conjunction with embodiment and accompanying drawing, the present invention is described in further detail, but embodiments of the present invention are not limited thereto.

Fig. 1 to Fig. 3 shows first embodiment of the present invention.As shown in the figure, the present embodiment comprises the first pointer 11, first motor 12, the second pointer 21, second motor 22, second pointer gear group 23 as minute hand, the 3rd pointer 31, the 3rd motor 32 and the 3rd pointer gear group 33 as hour hands as second hand.First pointer 11 is connected with the driving shaft 14 of the first motor 12; Second pointer 21 is also arranged independently of each other with the first pointer 11 is coaxial, and is connected by the driving shaft 24 of the second pointer gear group 23 with the second motor 22.3rd pointer 31 and the first pointer 11 and the second pointer 21 coaxial and arrange independently of each other, and to be connected by the driving shaft 34 of the 3rd pointer gear group 33 with the 3rd motor 32; First motor 12, second motor 22 and the 3rd motor 32 are connected with microprocessor (not shown) respectively; Microprocessor and multiple control device (comprise the first operating key 41 of position when being located at two in the present embodiment, when being located at three position second control to cling to 42 and be located at four time position the second operating key 43) be connected.Microprocessor receives the instruction of user from control device, the first pointer 11, second pointer 21 and the 3rd pointer 31 is moved to assigned scale on surface to show the output of microprocessor according to controlling driving first motor 12, second motor 22 and the 3rd motor 32 after default programmed process.

In the present embodiment, the first motor 12, second motor 22 shown in figure and the 3rd motor 32 are square, but the one 12, second motor 22 and the 3rd motor 32 also can be circular or other shape in other embodiments.User is switchable to calendar mode by the first operating key 41, in this mode, first pointer 11 is used as the instruction date, second pointer 21 is used as instruction week, 3rd pointer 31 is used as instruction month, microprocessor receives after the log-on message of the first operating key 41 just according to presetting programming driving first motor 12, second motor 22 and the 3rd motor 32 are respectively by the first pointer 11, second pointer 21 and the 3rd pointer 31 move to the date suitable on the surface, week and month scale to represent the current date, and wrist-watch pattern is automatically converted to after Preset Time (as 15 seconds), the first motor 12 is driven according to default programming Control, second motor 22 and the 3rd motor 32 are respectively by the first pointer 11, second pointer 21 and the 3rd pointer 31 move to digital calibration suitable on the surface to represent current time.

Fig. 4 to Fig. 6 shows second embodiment of the present invention.As shown in the figure, the present embodiment comprise the first pointer 11, first motor 12 as minute hand, the second pointer 21, second motor 22, second pointer gear group 23 as hour hands, as the 3rd pointer 31 of second hand and the 3rd motor 32.First pointer 11 is connected with the driving shaft 14 of the first motor 12; Second pointer 21 is also arranged independently of each other with the first pointer 11 is coaxial, and is connected by the driving shaft 24 of the second pointer gear group 23 with the second motor 22.3rd pointer 31 and the first pointer 11 and the second pointer 21 disalignment are also arranged independently of each other, and are connected with the driving shaft 34 of the 3rd motor 32; First motor 12, second motor 22 and the 3rd motor 32 are connected with microprocessor (not shown) respectively; Microprocessor and multiple control device (comprise the first operating key 41 of position when being located at two in the present embodiment, when being located at three position second control to cling to 42 and be located at four time position the second operating key 43) be connected.Microprocessor receives the instruction of user from control device, the first pointer 11, second pointer 21 and the 3rd pointer 31 is moved to assigned scale on surface to show the output of microprocessor according to controlling driving first motor 12, second motor 22 and the 3rd motor 32 after default programmed process.

Fig. 7 to Fig. 8 shows the 3rd embodiment of the present invention.As shown in the figure, in the present embodiment, the first pointer 11 as minute hand is connected with the driving shaft of the first motor 12; The second pointer 21 as hour hands is also arranged independently of each other with the first pointer 11 is coaxial, and is connected with the driving shaft of the second motor 22 by the second pointer gear group; Arrange independently of each other as the 3rd rotating disk 31 of second hand and the first pointer 11 and the second pointer 21 disalignment, and be connected with the driving shaft of the 3rd motor 32; First motor 12, second motor 22 and the 3rd motor 32 are connected with microprocessor (not shown) respectively; Microprocessor and multiple control device (comprise the first operating key 41 of position when being located at two in the present embodiment, when being located at three position second control to cling to 42 and be located at four time position the second operating key 43) be connected.Microprocessor receives the instruction of user from control device, the first pointer 11, second pointer 21 and the 3rd rotating disk 31 is moved to assigned scale on surface to show the output of microprocessor according to controlling driving first motor 12, second motor 22 and the 3rd motor 32 after default programmed process.In the present embodiment, the second pointer gear group comprises the first gear 231 be connected with the driving shaft of the second motor 22, the second gear 232 engaged with the first gear 231 and engages with the second gear 232 and the 3rd gear 233 be connected with the second pointer 21; Second gear 232 is used as 24 hours rotating disks in the present embodiment simultaneously.Be provided with the 4th gear the 234, four gear 234 engaged with the 3rd gear 233 in addition and be used as life rotating disk in the present embodiment.The gear ratio of the gear ratio of the first gear 231 and the second gear 232 to be the gear ratio of the 1: 2, second gear 232 and the 3rd gear 233 be the 2: 1, three gear 233 and the 4th gear 234 is 1: 2; Therefore, the first gear 231 often turns around (12 hours), and the second gear 232 just can turn half-turn, and the 3rd gear 233 just can turn around, and the 4th gear 234 just can turn half-turn; 24 hours rotating disks and life rotating disk, are realized 24 hours and Presentation Function round the clock with the half rotational speed of the first gear 231 by gear.

Fig. 9 to Figure 11 shows the 4th embodiment of the present invention.As shown in the figure, the present embodiment comprises the first pointer 11, first motor 12 as minute hand, the second pointer 21, second motor 22, second pointer gear group 23, the 3rd rotating disk 35 and the 3rd motor 32 as hour hands.First pointer 11 is connected with the driving shaft 14 of the first motor 12; Second pointer 21 is also arranged independently of each other with the first pointer 11 is coaxial, and is connected by the driving shaft 24 of the second pointer gear group 23 with the second motor 22.3rd rotating disk 35 is connected by the driving shaft 34 of the 3rd disk gear 36 with the 3rd motor 32.First motor 12, second motor 22 and the 3rd motor 32 are connected with microprocessor (not shown) respectively; Microprocessor and multiple control device (comprise the first operating key 41 of position when being located at two in the present embodiment, when being located at three position second control to cling to 42 and be located at four time position the second operating key 43) be connected.Microprocessor receives the instruction of user from control device, first pointer 11, second pointer 21 moved to assigned scale on surface to show the output of microprocessor according to controlling driving first motor 12, second motor 22 after default programmed process, and control driving the 3rd motor 32 and rotate the 3rd disk gear 36 and rotate to drive the 3rd rotating disk 35.Lower face is located at by 3rd rotating disk 35, and corresponding 3rd rotating disk 35 in surface arranges window 61 and exposes for part the 3rd rotating disk 35; 3rd rotating disk 35 can be printed on different decorative patterns, show at window 61 one by one along with the 3rd rotating disk 35 rotates different patterns.

Figure 12 to Figure 14 shows the 5th embodiment of the present invention.As shown in the figure, the present embodiment comprises the first pointer 11, first motor 12 as minute hand, the second pointer 21, second motor 22, second pointer gear group 23, runner 7 and the 3rd motor 32 as hour hands.First pointer 11 is connected with the driving shaft 14 of the first motor 12; Second pointer 21 is also arranged independently of each other with the first pointer 11 is coaxial, and is connected by the driving shaft 24 of the second pointer gear group 23 with the second motor 22.The rotating shaft 71 of runner 7 is horizontally disposed with, and is connected with the driving shaft of the 3rd motor 32.First motor 12, second motor 22 and the 3rd motor 32 are connected with microprocessor (not shown) respectively; Microprocessor and multiple control device (comprise the first operating key 41 of position when being located at two in the present embodiment, when being located at three position second control to cling to 42 and be located at four time position the second operating key 43) be connected.Microprocessor receives the instruction of user from control device, first pointer 11, second pointer 21 moved to assigned scale on surface to show the output of microprocessor according to controlling driving first motor 12, second motor 22 after default programmed process, and control driving the 3rd motor 32 rotating wheel 7.The corresponding runner 7 in surface arranges window 61 and exposes for part runner 7; Runner 7 is printed on digital calibration, shows one by one along with runner 7 rotates different scales at window 61, runner 7 is used as to show second in the present embodiment, and runner 7 also can be used as display out of Memory or decorative pattern in other embodiments.

Figure 15 to Figure 17 shows the 6th embodiment of the present invention.The pointer operation structure of the present embodiment and mode are roughly identical with embodiment before, do not repeat them here.As shown in the figure, when the feature of the present embodiment is, meter is also provided with multiple locating device, comprise locating convex block 81,81 ' and Location resilient piece 82, when it is arranged at 12 of surface respectively position timing second dial plate, 6 time position 1/10 second timing dial plate and 9 time position minute timing dial plate.When 6, the bottom surface of a scalloped recess 62 is located at by 1/10 second timing dial plate of position, pointer 81A is located at scalloped recess 62 bottom surface, locating convex block 81 is arranged at scalloped recess 62 side, and protrude towards pointer 81A direction, its position is corresponding with pointer 81A, and with 0 of 1/10 second timing dial plate at a distance of a predetermined angular (be 12 degree at the present embodiment), continue to stop pointer 81A when pointer 81A counterclockwise turns to contact locating convex block 81 counterclockwise to rotate.After wrist-watch changes electricity or resets, pointer 81A counterclockwise can turn 120 degree by default programming, therefore, no matter pointer 81A is changing electricity or is resetting anteposition in any position of 1/10 second timing dial plate, and it also can turn to contact locating convex block 81 and be stopped by locating convex block 81; After completing rotation, pointer 81A is according to presetting programming clockwise direction rotational positioning projection 81 and 1/10 second timing dial plate 0 angle apart (be 12 degree at the present embodiment) between the two, and pointer 81A just can turn to 0, thus realizes replacement.When 12, the timing second dial plate of position also establishes locating convex block 81 ', and the mode of operation of its structure and corresponding pointer 81A ' thereof is substantially identical with the mode of operation of the structure of locating convex block 81 and corresponding pointer 81A thereof, does not repeat them here.Pointer 82A side is flat sides set, and opposite side establishes inclined-plane on top; When the corresponding pointer 82A of Location resilient piece 82 is arranged at 9 position minute timing dial plate on, Location resilient piece 82 forms a V-arrangement by elastic arm 821 and 822, and its open horizontal is arranged; The open end of elastic arm 822 with 0 of minute timing dial plate at a distance of a predetermined angular (be 12 degree at the present embodiment), and it is corresponding with the top of pointer 82A, stop pointer 82A to continue counterclockwise to rotate (as shown in figure 16) during counterclockwise to turn to the open end of its flat sides set contact elastic arm 822 at pointer 82A, but allow that pointer 82A clockwise direction turns to its contact of incline plane to during the open end of elastic arm 822, elastic arm 822 being pressed to elastic arm 821 and continuing clockwise direction rotation (as shown in figure 17).After wrist-watch changes electricity or resets, pointer 82A can by default programming counterclockwise three-sixth turn, therefore, no matter pointer 82A is changing electricity or is resetting anteposition in any position of minute timing dial plate, and it also can turn to the open end of contact elastic arm 822 and be stopped by the open end of elastic arm 822; After completing rotation, pointer 82A rotates 0 of open end and minute timing dial plate of elastic arm 822 angle apart (be 348 degree at the present embodiment) between the two according to presetting programming clockwise direction, pointer 82A just can turn to 0, thus realizes resetting.In addition, the mode realizing resetting can also be such as position 12 time timing second dial plate on corresponding pointer 81A ' and 6 time position 1/10 second timing dial plate on corresponding pointer 81A location male member 83 is set respectively, existing with 12 time position timing second dial plate on location male member 83 principle of operation of locating male member 83 is described as an example.0 of timing second dial plate of a position apart predetermined angular (be 12 degree at the present embodiment) during location male member 83 and 12; The aspect ratio pointer 81A ' of location male member 83 is high, stops pointer 81A ' to continue counterclockwise to rotate during counterclockwise to turn to contact location male member 83 at pointer 81A '.After wrist-watch changes electricity or resets, pointer 81A ' counterclockwise can turn 120 degree by default programming, therefore, no matter pointer 81A ' is changing electricity or is resetting anteposition in any position of timing second dial plate, and it also can turn to contact location male member 83 and be stopped by location male member 83; After completing rotation, pointer 81A ' is according to presetting programming clockwise direction rotational positioning male member 83 and timing second dial plate 0 angle apart (be 12 degree at the present embodiment) between the two, and pointer 81A ' just can turn to 0, thus realizes resetting.Location male member 83 is similar with the effect of locating convex block 81 ', and just location male member 83 protrudes on dial plate, and locating convex block 81 ' is under then Hyperlink ensconces dial plate, both only need get one just can, can without the need to arranging simultaneously.Each pointer 81A, 81A ', 82A is respectively connected with the driving shaft of a motor, each described motor is connected with microprocessor; Microprocessor and multiple control device (comprise the first operating key 41 of position when being located at two in the present embodiment, when being located at three position second control to cling to 42 and be located at four time position the second operating key 43) be connected.

Above-described embodiment is the present invention's preferably embodiment; but embodiments of the present invention are not restricted to the described embodiments; change, the modification done under other any does not deviate from Spirit Essence of the present invention and principle, substitute, combine, simplify; all should be the substitute mode of equivalence, be included within protection scope of the present invention.

Claims (10)

1. count during a digital pointer, comprising:

First pointer, it is connected with the driving shaft of the first motor;

Second pointer, it is also arranged independently of each other with the first pointer is coaxial, and the second pointer is connected with the driving shaft of the second motor by the second pointer gear group;

First motor and the second motor are connected with microprocessor respectively; Microprocessor is connected with multiple control device.

2. count during digital pointer according to claim 1, it is characterized in that: also comprise the 3rd pointer, itself and the first pointer and the second pointer disalignment are also arranged independently of each other; 3rd pointer is connected with the driving shaft of the 3rd motor; 3rd motor is connected with microprocessor.

3. count during digital pointer according to claim 1, it is characterized in that: also comprise the 3rd pointer, its with the first pointer and the second pointer coaxial and arrange independently of each other; 3rd pointer is connected with the driving shaft of the 3rd motor by the 3rd pointer gear group; 3rd motor is connected with microprocessor.

4. count during digital pointer according to claim 1, it is characterized in that: one of them gear of the second pointer gear group is the first Fumction display rotating disk; Second pointer gear group is connected with the 4th gear, and the 4th gear is the second Fumction display rotating disk.

5. count during digital pointer according to claim 1, it is characterized in that: also comprise rotating disk, it is connected by the driving shaft of disk gear with the 3rd motor, and the 3rd motor is connected with microprocessor; The lower face of meter when rotating disk is located at, surperficial corresponding rotating disk arranges window and exposes for part rotating disk.

6. count during digital pointer according to claim 1, it is characterized in that: also comprise runner, its rotating shaft is horizontally disposed with, and is connected with the driving shaft of the 3rd motor, and the 3rd motor is connected with microprocessor.

7. count during digital pointer according to claim 1, it is characterized in that: the sublist dish also comprising the bottom surface being located at a scalloped recess, be located at the bottom surface of scalloped recess sublist index and be arranged at scalloped recess side and towards sublist index direction convex to locating convex block; The position of locating convex block is corresponding with sublist index, and with 0 of sublist dish at a distance of a predetermined angular, continues counterclockwise to rotate to stop sublist index when sublist index counterclockwise turns to contact locating convex block.

8. count during digital pointer according to claim 1, it is characterized in that: also comprise sublist dish, be arranged at sublist index on sublist dish and corresponding sublist index and be arranged at Location resilient piece on sublist dish; Sublist index side is flat sides set, and opposite side establishes inclined-plane on top; Location resilient piece forms a V-arrangement by the first elastic arm and the second elastic arm, and its open horizontal is arranged; The open end of the second elastic arm and 0 of sublist dish are at a distance of a predetermined angular, and it is corresponding with the top of sublist index, stop sublist index to continue counterclockwise to rotate counterclockwise to turn at sublist index when its flat sides set contacts the open end of the second elastic arm, but allow that sublist index clockwise direction turns to its contact of incline plane and rotates to the second elastic arm being pressed to the first elastic arm and continues clockwise direction during the open end of the second elastic arm.

9. count during digital pointer according to claim 1, it is characterized in that: also comprise sublist dish, be arranged at sublist index on sublist dish and corresponding sublist index and be arranged at location male member on sublist dish, location male member and sublist dish a 0 apart predetermined angular; The aspect ratio sublist index of location male member is high, stops sublist index to continue counterclockwise to rotate during counterclockwise to turn to contact location male member at sublist index.

10. count during digital pointer according to claim 7,8 or 9, it is characterized in that: sublist index is connected with the driving shaft of a motor, described motor is connected with microprocessor; Microprocessor is connected with multiple control device.