CN110007586B - Watch with time adjusting structure - Google Patents

Abstract

The invention discloses a watch with a time adjusting structure, which structurally comprises a watch core body, an operating button, a connecting watch band, a positioning ring, a watch buckle connecting hole, a fixed watch band, a contact type electric wave receiving automatic time adjusting device and a liquid crystal display screen, wherein the top end of the watch core body is provided with the connecting watch band and connected in an embedding mode, the operating button is arranged on the right side of the watch core body in an embedding mode, and the outer side of the connecting watch band is connected with the inner side of the fixed watch band in an embedding mode and is attached to the inner side of the watch core body. The invention extracts and discharges the damp and hot air inside the device through manual starting and a rotary centrifugal mode, prevents the humidity and hot air from influencing the transmission and reception of electric waves to cause interference and time deviation, and simultaneously completes the automatic power-off of the micro-motion inside the device by time adjustment and correction, thereby avoiding the fault caused by large consumption in continuous operation.

Description

Watch with time adjusting structure

Technical Field

The invention relates to the field of watches, in particular to a watch with a time adjusting structure.

Background

With the development and progress of society, people adjust the life rhythm of the people by observing time, and the watch is an instrument which is worn on the wrist in a wearing mode during the continuous improvement of a wall clock and is convenient for viewing the time. However, the watch of this type currently has the following drawbacks:

1. the wrist watch is worn on the wrist and easily absorbs the heat of the wrist into the wrist watch, the wrist watch is influenced by the heat and the humidity inside the wrist watch when receiving electric wave, and the electric wave influence is changed and transmitted into the wrist watch, so that the time display of the wrist watch deviates.

2. Meanwhile, the electric wave is collected and released, the electric quantity is consumed in continuous time adjustment, the watch is enabled to be worn or even broken down in high operation through continuous regulation, and the electric wave is damaged in normal operation.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a watch with a time adjusting structure, so that the problem that the watch in the prior art is worn on the wrist and easily absorbs the heat of the wrist into the watch, the influence of the electric wave is generated due to the heat and the humidity in the watch when the watch receives the electric wave, the influence of the electric wave is changed and transmitted into the watch, the time display of the watch is deviated, the electric quantity consumed during the continuous adjustment of the electric wave in the folding and unfolding process is large, the watch is lost or even fails during the high operation due to the continuous adjustment, and the electric wave is harmful to the normal operation.

In order to achieve the purpose, the invention is realized by the following technical scheme:

a watch with a time adjusting structure comprises a watch core body, an operating button, a connecting watch band, a positioning ring, a watch buckle connecting hole, a fixed watch band, a contact type electric wave receiving automatic time adjusting device and a liquid crystal display screen, wherein the top end of the watch core body is provided with the connecting watch band which is connected in an embedding mode, the operating button is installed on the right side of the watch core body in an embedding mode, the outer side of the connecting watch band is connected with the inner side of the fixed watch band in an embedding mode and is attached to the inner side of the fixed watch band, the connecting watch band penetrates through the inner side of the positioning ring and is connected in an attaching mode, the watch buckle connecting hole is installed on the inner side of the connecting watch band, the top end of the fixed watch band is connected with the bottom end of the watch core body in an adhering mode, the contact type electric wave receiving automatic time adjusting device is installed on the front end face of, the device comprises a contact type electric wave receiving automatic time-adjusting device, a liquid crystal display screen, a control transmission receiving mechanism and a signal feedback time-adjusting mechanism, wherein the liquid crystal display screen is arranged above the contact type electric wave receiving automatic time-adjusting device and is arranged on the front surface of a watch core body in an embedded mode, the contact type electric wave receiving automatic time-adjusting device comprises a touch micro-pressure intermittent starting mechanism, an air extraction control damp-heat preventing mechanism, a micro-motion electrifying mechanism, a control transmission receiving mechanism and a signal feedback time-adjusting mechanism, the micro-motion electrifying mechanism is arranged on the lower surface of the touch micro-pressure intermittent starting mechanism and is connected in a welding mode, the air extraction control damp-heat preventing mechanism is positioned at the left side of the touch micro-pressure intermittent starting mechanism and is electrically connected, the air extraction control damp-heat preventing mechanism is arranged on the inner side of the device body exhaust mechanism in an embedded, the bottom end of the signal feedback timing mechanism is connected with the upper surface of the touch micro-pressure intermittent starting mechanism in a laminating mode.

As a further scheme of the present invention, the touch micro-pressure intermittent starting mechanism comprises a connecting block, an integrated housing, a micro-pressure sensing contact, a connecting wire, a sensing control module, a power wire, a command starting module, a transmission wire and a micro-rotation limiting mechanism, wherein the rear end of the connecting block is connected with the front surface of the integrated housing by means of electric welding, the micro-pressure sensing contact is mounted on the inner side of the connecting block by means of fitting, the rear surface of the micro-pressure sensing contact is provided with the connecting wire and is electrically connected, the connecting wire is mounted on the front surface of the sensing control module by means of embedding, the sensing control module is mounted on the front surface of the inner side of the integrated housing by means of fitting, the power wire is mounted on the right surface of the integrated housing by means of embedding, the command starting module is located on the rear surface of the sensing control module and is electrically connected, the transmission wire is mounted on, the upper surface of the micro-rotation limiting mechanism is connected with the lower surface of the instruction starting module in an electric welding mode.

As a further scheme of the invention, the micro-rotation limiting mechanism comprises a guide module, a rotation control module, a limiting lug, a rope take-up and pay-off wheel disc and a connecting rope, wherein the lower surface of the guide module is provided with the control module and is connected in an embedded mode, the rear end face of the limiting lug is connected with the front end of the rope take-up and pay-off wheel disc in an electric welding mode, the rope take-up and pay-off wheel disc is arranged in front of the rotation control module, the rear end face of the rope take-up and pay-off wheel disc is parallel to the front surface of the rotation control module, and the connecting rope is attached to the outer side of the rope.

As a further aspect of the present invention, the air-extraction control damp-proof thermal mechanism includes an overload protection module, an electric field rotation control module, a rotary impeller, an air-extraction notch, a centrifugal gas fluid, and a drainage tube, wherein the overload protection module is installed on the right side of the electric field rotation control module by welding and electrically connected to the electric field rotation control module, the rotary impeller is installed on the front surface of the centrifugal gas fluid by embedding, the air-extraction notch is installed on the inner side of the rotary impeller, the rear end of the centrifugal gas fluid is connected to the electric field rotation control module by welding, the drainage tube is welded to the left side of the centrifugal gas fluid by embedding, and the drainage tube is connected to the device body exhaust mechanism by embedding.

As a further aspect of the present invention, the exhaust mechanism of the device body includes a device body housing, a linking plate, a hollow partition inclined plate, an exhaust pipe, and an air pressure discharge rod, wherein a drainage tube is disposed at a lower right portion of the hollow partition inclined plate and welded by an embedded manner, the linking plate is disposed at an inner side of the device body housing and connected by a welded manner, the hollow partition inclined plate is mounted at a lower surface of the linking plate, the exhaust pipe is mounted at an inclined end surface of the hollow partition inclined plate by an embedded manner, and the air pressure discharge rod is welded at an inner side of the device body housing by an embedded manner.

As a further aspect of the present invention, the micro-motion energizing mechanism includes a sliding energizing plate, a compression spring, a guide rod, an energizing groove, a cell power module, a power connection module, and a switching energizing module, wherein the lower surface of the sliding energizing plate is provided with the energizing groove, the compression spring is mounted on the upper surface of the sliding energizing plate by welding, the guide rod penetrates through the upper and lower surfaces of the sliding energizing plate and is perpendicular to each other, the cell power module is disposed on the right side of the power connection module and is electrically connected, and the switching energizing module is mounted on the left lower side of the sliding energizing plate and is mounted on the same horizontal plane.

As a further aspect of the present invention, the control transmission and reception mechanism includes a filter module, a terminal control module, a wireless transmission module, a current line, a wireless connection signal module, and an anti-creeping protector, wherein the filter module is installed at the right lower edge of the inner side of the anti-creeping protector, the left surface of the filter module is provided with the terminal control module and is electrically connected, the wireless transmission module is installed on the upper surface of the terminal control module in an embedded manner, and the top end of the current line is connected with the lower surface of the wireless connection signal module.

As a further aspect of the present invention, the signal feedback timing mechanism includes a signal line, a signal conversion module, and a time alignment line, the signal line is installed on the left surface of the signal conversion module in an embedded manner, and the time alignment line is welded on the upper surface of the signal conversion module and electrically connected thereto.

Advantageous effects of the invention

The invention relates to a watch with a time adjusting structure, which is worn on a wrist, when the displayed time on the watch has an error with the reference time, the central position of the front surface of the outer shell of a device body is pressed for a plurality of seconds by hand, the surface of the outer shell of the device body has no change and can generate micro deformation on the inner side to apply pressure, the pressed pressure enters a micro pressure induction contact piece through a connecting block, the induction control module transmits the micro pressure induction contact piece to an instruction starting module for signal programming control in a plurality of seconds continuously, the signal programming control module starts an electric field control rotation module through a transmission line by an overload protection module, a rotary impeller pumps moisture, hot air and the like on the inner side from an air pumping notch when rotating, then the moisture, the hot air and the like enter a hollow separation inclined plate under centrifugal rotation, the drainage tube enters the hollow separation inclined plate, the air pressure generated in the plate pushes the air pressure to be discharged from an air pressure discharge rod, and, the limiting lug slightly rotates anticlockwise to drive the rope take-up and pay-off wheel disc, the sliding electrifying plate is pressed downwards by the compression spring after the connecting rope is loosened, so that an electrifying groove in the sliding electrifying plate is connected with the power supply connecting module and the switching electrifying module, the battery piece power supply module is electrified by switching to the switching electrifying module through the sliding electrifying plate and then enters the filtering module, the filtering module operates to transmit signals to a terminal mobile phone or a computer through the terminal control module by a wireless transmission module for connection, the filtering module eliminates other fluctuation receiving terminal electric waves in the connection, the terminal controls the transmission of the reference time conversion electric waves and displays the timing schedule, the wireless connection signal module receives the signals of the reference time and switches to the signal conversion module through a signal wire, the time is synchronously calculated in the conversion and the time in the watch is adjusted by time adjustment, and the connecting rope is automatically rotated by the rope take-up and pay-off wheel disc after the conversion is completed, and the filtering module and the like are powered off and stop running.

According to the watch with the time adjusting structure, the damp and heat on the inner side of the watch device are extracted and discharged in a manual starting mode and a rotating centrifugal mode, so that the time deviation caused by interference caused by the fact that humidity and hot gas influence the transmission and the reception of electric waves is prevented, meanwhile, the inner side of the watch device is subjected to micro-motion automatic power off after time adjustment and correction, and the problem that continuous operation is large in consumption and faults are caused is avoided.

Drawings

Other features, objects and advantages of the invention will become more apparent from a reading of the detailed description of non-limiting embodiments with reference to the attached drawings.

In the drawings:

fig. 1 is a schematic structural diagram of a watch with a time adjustment structure according to the present invention.

Fig. 2 is a plan view of a contact type automatic timing device for receiving radio waves according to the present invention.

Fig. 3 is a detailed structural diagram of an automatic time-adjusting device for contact-type electric wave reception according to the present invention.

Fig. 4 is a detailed structural plan view of a touch micro-pressure intermittent starting mechanism of the invention.

FIG. 5 is a detailed structural diagram of a micro-rotation limiting mechanism according to the present invention.

Fig. 6 is a detailed structural schematic diagram of a micro-motion energizing mechanism according to the present invention.

FIG. 7 is a detailed structural diagram of a control transceiver according to the present invention.

In the figure: watch core body-1, operation button-2, connecting watch strap-3, positioning ring-4, watch buckle connecting hole-5, fixed watch strap-6, contact type radio wave receiving automatic time-adjusting device-7, liquid crystal display screen-8, touch micro-pressure intermittent starting mechanism-71, air-extracting control damp-heat-proof mechanism-72, device body air-discharging mechanism-73, micro-motion power-on mechanism-74, control transmission receiving mechanism-75, signal feedback time-adjusting mechanism-76, connecting block-711, integrated shell-712, micro-pressure induction contact-713, connecting line-714, induction control module-715, power line-716, instruction starting module-717, transmission line-718, micro-rotation limiting mechanism-719, guide module-7191, micro-pressure induction contact-713, A rotation control module-7192, a limit bump-7193, a rope take-up and pay-off wheel disc-7194, a connecting rope-7195, an overload protection module-721, an electric field rotation control module-722, a rotary impeller-723, an air exhaust notch-724, a centrifugal gas fluid-725, a drainage tube-726, a device body shell-731, an engagement transverse plate-732, a hollow separation inclined plate-733, an exhaust pipe-734, an air pressure discharge rod-735, a sliding electrifying plate-741, a compression spring-742, a guide rod-743, an electricity leading groove-744, a battery piece power module-745, a power connection module-746, a switching electrifying module-747, a filtering module-751, a terminal control module-752, a wireless transmission module-753, a current wire-754, a wireless connection signal module-755, Anticreep protector-756, signal line-761, signal conversion module-762, time alignment line-763.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 7, the present invention provides a technical solution of a wristwatch with a time-adjusting structure:

a watch with a time adjusting structure comprises a watch core body 1, an operating button 2, a connecting watch band 3, a positioning ring 4, a watch buckle connecting hole 5, a fixed watch band 6, a contact type electric wave receiving automatic time adjusting device 7 and a liquid crystal display screen 8, wherein the top end of the watch core body 1 is provided with the connecting watch band 3 and connected in an embedding mode, the operating button 2 is installed on the right side of the watch core body 1 in an embedding mode, the outer side of the connecting watch band 3 is connected and attached with the inner side of the fixed watch band 6 in an embedding mode, the connecting watch band 3 penetrates through the inner side of the positioning ring 4 and is connected in an attaching mode, the watch buckle connecting hole 5 is installed on the inner side of the connecting watch band 3, the top end of the fixed watch band 6 is connected with the bottom end of the watch core body 1 in an adhering mode, the contact type electric wave receiving automatic time-adjusting device 7 is arranged on the front end face of the watch core body 1 in a welding mode and is electrically connected, a liquid crystal display screen 8 is arranged above the contact type electric wave receiving automatic time-adjusting device 7, the liquid crystal display screen 8 is arranged on the front surface of the watch core body 1 in an embedding mode, the contact type electric wave receiving automatic time-adjusting device 7 comprises a touch micro-pressure intermittent starting mechanism 71, an air extraction control damp-heat prevention mechanism 72, a device body exhaust mechanism 73, a micro-motion electrifying mechanism 74, a control transmission receiving mechanism 75 and a signal feedback time-adjusting mechanism 76, the micro-motion electrifying mechanism 74 is arranged on the lower surface of the touch micro-pressure intermittent starting mechanism 71 and is connected in a welding mode, the air extraction control damp-heat prevention mechanism 72 is located on the inner side of the device body exhaust mechanism 73 in a left embedding mode, and is electrically connected with the micro-pressure intermittent starting mechanism 71, the micro-motion power-on mechanism 74 is installed on the lower surface of the inner side of the device body exhaust mechanism 73, the control transmission receiving mechanism 75 is installed on the left side of the micro-motion power-on mechanism 74 and is electrically connected, the bottom end of the signal feedback timing mechanism 76 is connected with the upper surface of the touch micro-pressure intermittent starting mechanism 71 in a fitting manner, the touch micro-pressure intermittent starting mechanism 71 comprises a connecting block 711, an integrated shell 712, a micro-pressure sensing contact 713, a connecting line 714, a sensing control module 715, a power line 716, an instruction starting module 717, a transmission line 718 and a micro-rotation limiting mechanism 719, the rear end of the connecting block 711 is connected with the front surface of the integrated shell 712 in a welding manner, the micro-pressure sensing contact 713 is installed on the inner side of the connecting block 711 in a fitting manner, the rear surface of the micro-pressure sensing contact 713 is provided with the connecting line 714 and is electrically connected, the connecting line 714, the induction control module 715 is mounted on the front surface of the inner side of the integrated shell 712 in a fitting manner, the power line 716 is mounted on the right surface of the integrated shell 712 in an embedding manner, the instruction starting module 717 is located on the rear surface of the induction control module 715 and is electrically connected, the transmission line 718 is mounted on the left surface of the instruction starting module 717 and is connected in an embedding manner, the upper surface of the micro-rotation limiting mechanism 719 is connected with the lower surface of the instruction starting module 717 in an electric welding manner, the micro-rotation limiting mechanism 719 comprises a guide module 7191, a rotation control module 7192, a limiting projection 7193, a rope retractable wheel disk 7194 and a connecting rope 7195, the lower surface of the guide module 7191 is provided with the control module 7192 and is connected in an embedding manner, the rear end face of the limiting projection 7193 is connected with the front end of the rope retractable wheel disk 7194 in an electric welding manner, the rope retracting wheel disk 7194 is arranged in front of the rotation control module 7192, the rear end face of the rope retracting wheel disk 7194 is parallel to the front surface of the rotation control module 7192, the connecting rope 7195 is attached to the outer side of the rope retracting wheel disk 7194 in a winding mode, the air exhaust control damp and hot preventing mechanism 72 comprises an overload preventing protection module 721, an electric field rotation control module 722, a rotating impeller 723, an air exhaust notch 724, a centrifugal air flow body 725 and a drainage tube 726, the overload preventing module 721 is arranged on the right side of the electric field rotation control module 722 in a welding mode and is electrically connected, the rotating impeller 723 is arranged on the front surface of the centrifugal air flow body 725 in an embedding mode, the air exhaust notch 724 is arranged on the inner side of the rotating impeller 723, the rear end of the centrifugal air flow body 725 is connected with the electric field rotation control module 722 in a welding mode, and the drainage tube 726 is welded on the left side of the centrifugal air flow body 725 in an embedding mode, the drain tube 726 is connected with the device body exhaust mechanism 73 in an embedded manner, the device body exhaust mechanism 73 includes a device body housing 731, a connecting transverse plate 732, a hollow partition inclined plate 733, an exhaust tube 734, and an air pressure discharge rod 735, the drain tube 726 is arranged at the lower right side of the hollow partition inclined plate 733 and welded in an embedded manner, the connecting transverse plate 732 is arranged at the inner side of the device body housing 731 and connected in a welded manner, the hollow partition inclined plate 733 is mounted on the lower surface of the connecting transverse plate 732, the exhaust tube 734 is mounted on the inclined end surface of the hollow partition inclined plate 733 in an embedded manner, the air pressure discharge rod 735 is welded at the inner side of the device body housing 731 in an embedded manner, the micro-motion energizing mechanism 74 includes a sliding energizing plate 741, a compression spring 742, a guide rod 743, an energizing slot 744, a cell power supply module 745, a power supply connection module 746, A switching power-on module 747, the lower surface of the sliding power-on plate 741 is provided with a current-guiding slot 744, the compression spring 742 is mounted on the upper surface of the sliding power-on plate 741 by welding, the guide rod 743 penetrates the upper and lower surfaces of the sliding power-on plate 741 and is perpendicular to each other, the cell power module 745 is arranged on the right side of the power connection module 746 and is electrically connected, the switching power-on module 747 is mounted on the left lower side of the sliding power-on plate 741 and is mounted on the same horizontal plane, the control transmission receiving mechanism 75 comprises a filter module 751, a terminal control module 752, a wireless transmission module 753, a current wire 754, a wireless connection signal module 755 and an anti-leakage protector 756, the filter module 751 is mounted on the right lower side of the inner side of the anti-leakage protector 756, the left surface of the filter module 751 is provided with the terminal control module 752 and is electrically connected, the wireless transmission module 753 is mounted on the upper surface of, the top end of the current line 754 is connected with the lower surface of the wireless connection signal module 755, the signal feedback timing mechanism 76 includes a signal line 761, a signal conversion module 762, and a time calibration line 763, the signal line 761 is installed on the left surface of the signal conversion module 762 in an embedded manner, and the time calibration line 763 is welded on the upper surface of the signal conversion module 762 and is electrically connected.

The invention relates to a watch with a time adjusting structure, which has the working principle that: when the wrist watch is worn and the time displayed on the wrist watch has an error with the reference time, the center position of the front surface of the device body shell 713 is pressed for several seconds by hand, the surface of the device body shell 713 has no change and the inner side can generate micro deformation to apply pressure, the pressed pressure enters the micro pressure induction contact 713 through the connecting block 711, the induction control module 715 continuously transmits to the instruction starting module 717 for signal programming control, the signal programming control is started by the overload protection module 721 through the transmission line 718, the electric field control rotation module 722 is started by the rotating impeller 723, when rotating, moisture, hot air and the like on the inner side are pumped and enter from the air suction notch 724, then the moisture, the hot air and the like enter the hollow separation inclined plate 733 under centrifugal rotation, the air pressure generated in the plate is fully pushed to be discharged from the air exhaust pipe 734 to the air pressure discharge rod 735, the instruction starting module 717 leads the guide module 7191 to guide the control rotation module 7192 on the other side, the limiting bump 7193 slightly rotates counterclockwise to drive the rope retracting wheel disk 7194, the sliding conducting plate 741 is pressed downwards by the compression spring 742 after the connecting rope 7195 is loosened, so that a leading electric groove 744 in the sliding conducting plate 741 is connected with the power supply connection module 746 and the switching conducting module 747, the leading electricity of the cell power supply module 745 is transferred to the switching conducting module 747 through the sliding conducting plate 741 and then enters the filter module 751, the filter module 751 operates to transmit signals to a terminal mobile phone or a computer through the wireless transmission module 753 by the terminal control module 752, the filter module eliminates other fluctuation receiving terminal electric waves 751 in the connection, the terminal controls to transfer the reference time converting electric waves and display the timing schedule, the signal of the wireless connection signal module 755 for receiving the reference time is transferred to the signal conversion module 762 through the signal line 761, the time is formed in the conversion for synchronous calculation and the time in the watch is adjusted by the time adjusting line 763, after the operation is finished, the connecting rope 7195 is pulled by automatically rotating the rope winding and unwinding wheel disk 7194, and the filtering module 751 and the like are powered off and stop running.

The invention solves the problems that the watch in the prior art is worn on the wrist and easily absorbs the heat of the wrist into the watch, the watch has influence due to the heat and the humidity in the watch when receiving electric waves, the influence of the electric waves is changed and transmitted into the watch, so that the time display of the watch is deviated, the electric power consumption is high when the electric waves are continuously collected and released, the watch is lost and even fails in high operation due to continuous regulation and control, and the electric waves are damaged when running.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (4)

1. The utility model provides a wrist-watch with structure of adjusting time, its structure includes wrist-watch core organism (1), operating button (2), connects watchband (3), holding ring (4), table knot connecting hole (5), fixed watchband (6), automatic device (7), liquid crystal display (8) of adjusting time are received to contact electric wave, its characterized in that:

the watch is characterized in that the top end of the watch core body (1) is provided with a connecting watch band (3) which is connected in an embedding manner, the operating button (2) is arranged on the right side of the watch core body (1) in an embedding manner, the outer side of the connecting watch band (3) is connected with the inner side of a fixed watch band (6) in an embedding manner and is attached to the inner side of the watch core body, the connecting watch band (3) penetrates through the inner side of a positioning ring (4) and is connected in an attaching manner, a watch buckle connecting hole (5) is arranged on the inner side of the connecting watch band (3), the top end of the fixed watch band (6) is connected with the bottom end of the watch core body (1) in an adhering manner, the contact type electric wave receiving automatic timing device (7) is arranged on the front end face of the watch core body (1) in a welding manner and is electrically connected, a liquid crystal display screen (8) is arranged above the contact, the liquid crystal display screen (8) is arranged on the front surface of the watch core body (1) in an embedded mode;

the contact type electric wave receiving automatic time-adjusting device (7) comprises a touch micro-pressure intermittent starting mechanism (71), an air extraction control damp and hot preventing mechanism (72), a device body exhaust mechanism (73), a micro-motion electrifying mechanism (74), a control transmission receiving mechanism (75) and a signal feedback time-adjusting mechanism (76), wherein the micro-motion electrifying mechanism (74) is arranged on the lower surface of the touch micro-pressure intermittent starting mechanism (71) and is connected in a welding mode, the air extraction control damp and hot preventing mechanism (72) is positioned at the left side of the touch micro-pressure intermittent starting mechanism (71) and is electrically connected, the air extraction control damp and hot preventing mechanism (72) is installed at the inner side of the device body exhaust mechanism (73) in an embedding mode, the micro-motion electrifying mechanism (74) is installed on the lower surface of the inner side of the device body exhaust mechanism (73), the control transmission receiving mechanism (75) is arranged at the left side of the micro, the bottom end of the signal feedback timing mechanism (76) is connected with the upper surface of the touch micro-pressure intermittent starting mechanism (71) in a fitting mode;

the touch micro-pressure intermittent starting mechanism (71) comprises a connecting block (711), an integrated shell (712), a micro-pressure induction contact (713), a connecting line (714), an induction control module (715), a power line (716), an instruction starting module (717), a transmission line (718) and a micro-rotation limiting mechanism (719), wherein the rear end of the connecting block (711) is connected with the front surface of the integrated shell (712) in an electric welding mode, the micro-pressure induction contact (713) is installed on the inner side of the connecting block (711) in a fitting mode, the rear surface of the micro-pressure induction contact (713) is provided with the connecting line (714) and is electrically connected with the connecting line, the connecting line (714) is installed on the front surface of the induction control module (715) in an embedding mode, the induction control module (715) is installed on the front surface of the inner side of the integrated shell (712) in a fitting mode, and the power line (716) is arranged on the right surface of the integrated, the instruction starting module (717) is positioned on the rear surface of the induction control module (715) and is electrically connected with the rear surface of the induction control module, the transmission line (718) is installed on the left surface of the instruction starting module (717) and is connected with the left surface of the instruction starting module (717) in an embedded mode, and the upper surface of the micro-rotation limiting mechanism (719) is connected with the lower surface of the instruction starting module (717) in an electric welding mode;

the micro-rotation limiting mechanism (719) comprises a guide module (7191), a rotation control module (7192), a limiting lug (7193), a rope winding and unwinding wheel disc (7194) and a connecting rope (7195), wherein the control module (7192) is arranged on the lower surface of the guide module (7191) and is connected in an embedded mode, the rear end face of the limiting lug (7193) is connected with the front end of the rope winding and unwinding wheel disc (7194) in an electric welding mode, the rope winding and unwinding wheel disc (7194) is installed in front of the rotation control module (7192), the rear end face of the rope winding and unwinding wheel disc (7194) is parallel to the front surface of the rotation control module (7192), and the connecting rope (7195) is attached to the outer side of the rope winding and unwinding wheel disc (7194);

the air-extracting control damp-heat prevention mechanism (72) comprises an overload protection module (721), an electric field control rotation module (722), a rotary impeller (723), an air-extracting notch (724), centrifugal gas fluid (725) and a drainage tube (726), the overload protection module (721) is arranged on the right side of the electric field rotation control module (722) in a welding mode and is electrically connected, the rotating impeller (723) is mounted to the front surface of the centrifugal gas fluid (725) by means of an insert, the air exhaust notch (724) is arranged on the inner side of the rotating impeller (723), the rear end of the centrifugal gas fluid (725) is connected with the electric field rotation control module (722) in a welding mode, the draft tube (726) is welded to the left side of the centrifugal gas flow (725) by means of embedding, the drainage tube (726) is connected with the exhaust mechanism (73) of the device body in an embedded mode;

the device body exhaust mechanism (73) comprises a device body shell (731), a connecting transverse plate (732), a hollow separating inclined plate (733), an exhaust pipe (734) and an air pressure exhaust rod (735), wherein a drainage pipe (726) is arranged at the lower right side of the hollow separating inclined plate (733) and welded in an embedded mode, the connecting transverse plate (732) is arranged at the inner side of the device body shell (731) and connected in a welded mode, the hollow separating inclined plate (733) is installed on the lower surface of the connecting transverse plate (732), the exhaust pipe (734) is installed on the inclined end surface of the hollow separating inclined plate (733) in an embedded mode, and the air pressure exhaust rod (735) is welded at the inner side of the device body shell (731) in an embedded mode.

2. A wristwatch having a time-setting structure according to claim 1, wherein: the micro-motion electrifying mechanism (74) comprises a sliding electrifying plate (741), a compression spring (742), a guide rod (743), an electrifying groove (744), a battery piece power module (745), a power supply connecting module (746) and a switching electrifying module (747), wherein the electrifying groove (744) is arranged on the lower surface of the sliding electrifying plate (741), the compression spring (742) is installed on the upper surface of the sliding electrifying plate (741) in a welding mode, the guide rod (743) penetrates through the upper surface and the lower surface of the sliding electrifying plate (741) and is perpendicular to each other, the battery piece power module (745) is arranged at the right side of the power supply connecting module (746) and is electrically connected, and the switching electrifying module (747) is installed at the lower left side of the sliding electrifying plate (741) and is installed on the same horizontal plane.

3. A wristwatch having a time-setting structure according to claim 1, wherein: the control transmission receiving mechanism (75) comprises a filtering module (751), a terminal control module (752), a wireless transmission module (753), a current line (754), a wireless connection signal module (755) and an anti-leakage protective body (756), wherein the filtering module (751) is installed at the right lower edge of the inner side of the anti-leakage protective body (756), the left surface of the filtering module (751) is provided with the terminal control module (752) and is electrically connected with the terminal control module (752), the wireless transmission module (753) is arranged on the upper surface of the terminal control module (752) in an embedded mode, and the top end of the current line (754) is connected with the lower surface of the wireless connection signal module (755).

4. A wristwatch having a time-setting structure according to claim 1, wherein: the signal feedback timing mechanism (76) comprises a signal line (761), a signal conversion module (762) and a time alignment line (763), wherein the signal line (761) is installed on the left surface of the signal conversion module (762) in an embedded mode, and the time alignment line (763) is welded on the upper surface of the signal conversion module (762) and is electrically connected.

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