CN109901377B - Intelligent wearable product with convenient charging system device - Google Patents

Abstract

The invention discloses an intelligent wearable product with a convenient charging system device, which structurally comprises a reinforced abrasion-proof charging end, an adjusting knob, a fixed clamping groove, a liquid crystal display screen, an intelligent watch body, a watch band connecting block, a starting switch and an intelligent watch band, wherein the reinforced abrasion-proof charging end is arranged in the intelligent watch body and is connected in a fixed mounting mode, the adjusting knob is arranged at the right end of the intelligent watch body and is connected in a rotating mode, after charging, the structure that the conducting strip inside the charging end of the intelligent watch automatically retracts to be disconnected from the outside air effectively prevents dust from attaching on the conducting strip to cause the reduction of the service life of the connecting end of the chip and the charging wire, simultaneously, when being equipped with the charging wire link and inserting intelligent wrist-watch charging end, increase the fixed structure in location, help preventing to make the location effect reduce because of the spout deformation on the charging wire link.

Description

Intelligent wearable product with convenient charging system device

Technical Field

The invention relates to the field of intelligent wearing products, in particular to an intelligent wearing product with a convenient charging system device.

Background

Products are dressed to intelligence include intelligent wrist-watch, intelligent bracelet, intelligent neck ring and so on, wherein in the life of the people of extensive application of intelligent wrist-watch, intelligent wrist-watch has easy operation, advantage that the precision is high. However, the current smart watch has the following disadvantages:

1. what charge the end of intelligence wrist-watch adopted exposes the formula structure, finishes when charging, when extracting the charging wire, the end that charges takes place the contact with external environment, and inside dust in the air got into the end that charges easily, on adhering to the chip that electrically conducts and holding for when charging next time, the chip was mingled with the dust granule with the charging wire link, and to wearing and tearing to both, lead to the life reduction of chip and charging wire link.

2. Simultaneously, be equipped with in the end that charges of intelligence wrist-watch and carry out the structure of fixing a position to the spout on the charging wire link, at the time of the time extract the insertion process, the spout on the charging wire link produces deformation easily, leads to the location structure in the end that charges of intelligence wrist-watch to weaken to the spout location effect on the charging wire link.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an intelligent wearable product with a convenient charging system device, so as to solve the problem that the charging end of the intelligent watch in the prior art adopts an exposed structure, when the charging is finished and the charging wire is pulled out, the charging end is contacted with the external environment, dust in the air is easy to enter the charging end and is attached to the chip on the conductive end, so that dust particles are mixed with the connecting end of the chip and the charging wire when the next charging is carried out, the chip and the charging wire connecting end are abraded, so that the service life of the chip and the charging wire connecting end is reduced, meanwhile, a structure for positioning a sliding groove on the charging wire connecting end is arranged in the charging end of the intelligent watch, in the process of once pulling out the insertion, the spout on the charging wire link produces deformation easily, leads to the location structure in the charging end of intelligent wrist-watch to weaken to the spout location effect on the charging wire link.

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

an intelligent wearable product with a convenient charging system device structurally comprises a reinforced anti-abrasion charging end, an adjusting knob, a fixed clamping groove, a liquid crystal display screen, an intelligent watch body, a watch band connecting block, a starting switch and an intelligent watch band, wherein the reinforced anti-abrasion charging end is arranged inside the intelligent watch body and is connected in a fixed mounting mode, the adjusting knob is arranged at the right end of the intelligent watch body and is connected in a rotating mode, the fixed clamping groove is arranged at the front end face of the intelligent watch body and is of an integrated structure, the watch band connecting block is arranged at the lower end of the intelligent watch body and is connected in a fixed mounting mode, the liquid crystal display screen is arranged at the front end face of the intelligent watch body and is connected in an embedding mounting mode, the starting switch is electrically connected with the intelligent watch body, the intelligent watch band is arranged at the lower end of the watch band connecting block and is connected in a hinge moving mode, it decreases charging end including the positioning mechanism that charges, the electric connection mechanism that charges, electrically conductive receiving mechanism, device trigger mechanism, mechanical transmission mechanism, electrically conductive end positioning mechanism, drive increase solid mechanism to increase solid, it locates to charge electric connection mechanism inside and be connected through fixed mounting's mode, it adopts the electricity to be connected with electrically conductive receiving mechanism to charge electric connection mechanism, electrically conductive receiving mechanism locates mechanical transmission mechanism lower extreme and is connected through transmission complex mode, mechanical transmission mechanism adopts the electricity with device trigger mechanism to be connected, electrically conductive end positioning mechanism locates the drive and increases solid mechanism lower extreme and is connected through the transmission complex mode of linkage.

As a further aspect of the present invention, the charging positioning mechanism includes a device housing, a charging inlet, and a touch switch, the charging inlet is disposed inside the device housing and is an integrated structure, and the touch switch is disposed inside the device housing and is connected by a fixed installation method.

As a further aspect of the present invention, the charging connection mechanism includes a docking guide plate and a connection chip, the connection chip is disposed at an upper end of the docking guide plate and connected thereto by means of an embedded installation, and the docking guide plate is electrically connected to the conductive accommodation mechanism.

As a further aspect of the present invention, the conductive accommodating mechanism includes a retractable cable, a power transmission terminal, a sliding groove, and a linking transmission plate, the retractable cable is disposed at the left end of the linking transmission plate and connected in a transmission fit manner, the retractable cable is disposed inside the sliding groove and connected in a sliding manner, and the retractable cable is electrically connected to the power transmission terminal.

As a further scheme of the invention, the device triggering mechanism comprises a device triggering mechanism shell, a terminal controller, a triggering terminal, a movable groove, a linking spring, an extrusion block, a blade positioning block, a movable linking block and a linkage pressure rod, wherein the terminal controller is arranged inside the device triggering mechanism shell and is connected in a fixed installation mode, the terminal controller is electrically connected with the triggering terminal, the movable terminal is arranged at the left end of the linkage pressure rod and is connected in a welding mode, the movable linking block is arranged inside the movable groove and is connected in a movable mode, the linkage pressure rod penetrates through the center of the linking spring, the extrusion block is arranged at the right end of the linkage pressure rod and is connected in a linkage mode, the linkage pressure rod is arranged at the lower end of the movable linking block and is of an integrated structure, the blade positioning block is arranged at the right end of the device triggering mechanism shell and is connected in a welding mode, and the terminal controller is electrically connected with the mechanical transmission mechanism.

As a further scheme of the invention, the mechanical transmission mechanism comprises a mechanical transmission mechanism shell, a motor fixing seat, a micro driving motor, a rotating rod positioning ring, a threaded rotating rod, a displacement groove, a transmission sliding plate, an inner threaded block and a limit baffle plate, wherein the motor fixing seat is arranged on the inner wall of the mechanical transmission mechanism shell and is connected in a laminating mode, the motor fixing seat is arranged at the left end of the micro driving motor and is connected in a welding mode, the micro driving motor is arranged at the left end of the threaded rotating rod and is connected in a rotating mode, the threaded rotating rod and the rotating rod positioning ring are positioned on the same axis and are connected in a movable mode, the displacement groove is arranged at the lower end of the mechanical transmission mechanism shell and is of an integrated structure, the transmission sliding plate is arranged at the right end of the inner threaded block and is connected in a linkage mode, the inner threaded block and the threaded rotating rod are positioned on the same axis, the limiting partition plate is arranged inside the shell of the mechanical transmission mechanism and is connected in a fixed mounting mode.

As a further scheme of the present invention, the conductive end positioning mechanism includes a positioning turntable, a reset torsion spring, a hinge movable rod, a positioning pressure rod, and a track pressing block, the reset torsion spring is disposed on a front end surface of the positioning turntable and connected in a transmission fit manner, the hinge movable rod is disposed on an upper end of the positioning pressure rod and connected in a linkage manner, the positioning pressure rod is disposed on an upper end of the track pressing block and integrated, and the hinge movable rod is disposed on a lower end of the driving reinforcement mechanism and connected in a transmission fit manner of linkage.

As a further scheme of the invention, the driving reinforcement mechanism comprises a driving reinforcement mechanism shell, a powerful electromagnet, a moving magnetic plate, an inflation pipeline, a sealing connection plate, an inflation channel, a moving frame, a return spring, an embedded groove and a conductive controller, wherein the powerful electromagnet is electrically connected with the conductive controller, the conductive controller is arranged inside the driving reinforcement mechanism shell and is connected in a fixed installation mode, the moving magnetic plate is arranged at the left end of the inflation pipeline and is connected in a transmission matching mode, the sealing connection plate is arranged at the left end of the inflation channel and is connected in a sealing installation mode, the moving frame is arranged inside the driving reinforcement mechanism shell and is connected in a welding mode, and the return spring is arranged inside the embedded groove and is in transition matching.

Advantageous effects of the invention

The invention relates to an intelligent wearable product with a convenient charging system device, wherein a convenient charging system is arranged in an intelligent watch body, when charging is needed, a connecting end of a charging wire is connected to a reinforced anti-abrasion charging end, a butt-joint guide sheet is inserted into a corresponding groove of the connecting end of the charging wire, current is led into the butt-joint guide sheet through a connecting chip and finally enters the intelligent watch body through a power transmission end, when charging is finished, the connecting end of the charging wire is pulled out, a linking spring in a compressed state removes elastic force limitation and rebounds to drive a connected extrusion block, the extrusion block drives a mobile terminal to break contact with a trigger terminal through a linkage compression bar, a terminal controller controls a micro driving motor to start running, the micro driving motor transmits rotating mechanical energy to a thread rotating bar, the inner thread block drives a transmission sliding plate to move through the rotation of the thread rotating bar, and the transmission sliding plate drives a transmission plate, linking up that the driving plate drives and to dock conducting strip retracting device trigger mechanism shell inside isolated with the outside air, the link at the charging wire inserts the in-process that the reinforcing formula abrasionproof decreases the charging end, the spout on the link of charging wire is embedded into to the positioning pressure pole, when embedding, the positioning pressure pole receives the effort of the link front end stopper of a charging wire, the positioning pressure pole shifts up, contact with touch switch, conductive controller is with the leading-in powerful electromagnetic iron of electric current, powerful electromagnetic iron produces the repulsion to removing the magnetic sheet, the removal of removing the magnetic sheet is with the gas extrusion in the gas pipeline removal frame, make the hinge movable rod in the removal frame produce the effort to the positioning pressure pole, increase positioning effect, when extracting, contact once more with touch switch, conductive controller then breaks off the current output to powerful electromagnetic iron.

The intelligent wearable product with the convenient charging system device is provided with a structure that after charging, a conducting strip inside a charging end of an intelligent watch automatically retracts to be disconnected from the outside air, so that dust is effectively prevented from attaching to the conducting strip, the service life of a chip and a charging wire connecting end is shortened, and meanwhile, when the charging wire connecting end is inserted into the charging end of the intelligent watch, a positioning and fixing structure is added, so that the positioning effect is prevented from being reduced due to the deformation of a sliding groove in the charging wire connecting end.

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 an intelligent wearable product with a convenient charging system device according to the present invention.

Fig. 2 is a plan view of a reinforced anti-wear charging terminal according to the present invention.

Fig. 3 is a detailed structural diagram of a reinforced anti-wear charging terminal according to the present invention.

Fig. 4 is a detailed structural diagram of a trigger mechanism of the device of the present invention.

Fig. 5 is a detailed structural schematic diagram of a mechanical transmission mechanism of the present invention.

Fig. 6 is a detailed structural schematic diagram of a driving reinforcement mechanism according to the present invention.

In the figure: the device comprises a reinforced anti-abrasion charging end-1, an adjusting knob-2, a fixed card slot-3, a liquid crystal display screen-4, an intelligent watch body-5, a watchband connecting block-6, a starting switch-7, an intelligent watchband-8, a charging positioning mechanism-11, a charging connecting mechanism-12, a conductive accommodating mechanism-13, a device triggering mechanism-14, a mechanical transmission mechanism-15, a conductive end positioning mechanism-16, a driving reinforcing mechanism-17, a device shell-1101, a charging extension port-1102, a touch switch-1103, a butt joint guide sheet-1201, a connecting chip-1202, a telescopic cable-1301, a power transmission end-1302, a sliding groove-1303, a connecting transmission plate-1304, a device triggering mechanism shell-1401, a terminal controller-1402, a computer and a computer program product, Trigger terminal-1403, mobile terminal-1404, mobile slot-1405, engagement spring-1406, extrusion block-1407, blade positioning block-1408, mobile engagement block-1409, linkage pressure lever-1410, mechanical transmission mechanism housing-1501, motor holder-1502, micro drive motor-1503, rotating lever positioning ring-1504, threaded rotating lever-1505, displacement slot-1506, transmission sliding plate-1507, internal thread block-1508, limit baffle-1509, positioning rotating disc-1601, reset torsion spring-1602, hinge movable lever-1603, positioning pressure lever-1604, orbit pressure block-1605, drive reinforcement mechanism housing-1701, powerful electromagnet-1702, mobile magnetic plate-1703, inflation pipe-1704, seal engagement spring-1705, seal engagement spring-1704, seal engagement spring-1705, An inflation channel-1706, a moving frame-1707, a return spring-1708, an embedded groove-1709 and a conductive controller-1710.

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 6, the present invention provides a technical solution of an intelligent wearable product with a convenient charging system apparatus:

an intelligent wearable product with a convenient charging system device structurally comprises a reinforced anti-abrasion charging end 1, an adjusting knob 2, a fixed clamping groove 3, a liquid crystal display 4, an intelligent watch body 5, a watch band linking block 6, a starting switch 7 and an intelligent watch band 8, wherein the reinforced anti-abrasion charging end 1 is arranged inside the intelligent watch body 5 and is connected in a fixed mounting mode, the adjusting knob 2 is arranged at the right end of the intelligent watch body 5 and is connected in a rotating mode, the fixed clamping groove 3 is arranged at the positive end face of the intelligent watch body 5 and is of an integrated structure, the watch band linking block 6 is arranged at the lower end of the intelligent watch body 5 and is connected in a fixed mounting mode, the liquid crystal display 4 is arranged at the positive end face of the intelligent watch body 5 and is connected in an embedding mounting mode, the starting switch 7 is electrically connected with the intelligent watch body 5, the intelligent wrist-watch strap 8 is arranged at the lower end of the wrist-watch strap connecting block 6 and is connected in a hinge activity mode, the reinforced abrasion-proof charging end 1 comprises a charging positioning mechanism 11, a charging connecting mechanism 12, a conductive accommodating mechanism 13, a device triggering mechanism 14, a mechanical transmission mechanism 15, a conductive end positioning mechanism 16 and a driving reinforcing mechanism 17, the charging connecting mechanism 12 is arranged in the charging positioning mechanism 11 and is connected in a fixed installation mode, the charging connecting mechanism 12 is electrically connected with the conductive accommodating mechanism 13, the conductive accommodating mechanism 13 is arranged at the lower end of the mechanical transmission mechanism 15 and is connected in a transmission matching mode, the mechanical transmission mechanism 15 is electrically connected with the device triggering mechanism 14, the conductive end positioning mechanism 16 is arranged at the lower end of the driving reinforcing mechanism 17 and is connected in a transmission matching mode of linkage, the charging positioning mechanism 11 comprises an apparatus housing 1101, a charging inlet 1102 and a touch switch 1103, wherein the charging inlet 1102 is arranged inside the apparatus housing 1101 and is of an integrated structure, the touch switch 1103 is arranged inside the apparatus housing 1101 and is connected with the apparatus housing 1101 by a fixed installation manner, the charging connecting mechanism 12 comprises a docking guide plate 1201 and a connecting chip 1202, the connecting chip 1202 is arranged at the upper end of the docking guide plate 1201 and is connected with the docking guide plate by an embedded installation manner, the docking guide plate 1201 is electrically connected with the conductive receiving mechanism 13, the conductive receiving mechanism 13 comprises a retractable cable 1301, a power transmission end 1302, a sliding groove 1303 and a linking transmission plate 1304, the retractable cable 1301 is arranged at the left end of the linking transmission plate 1304 and is connected with the linking transmission plate by a transmission fit manner, the retractable cable 1301 is arranged inside the sliding groove 1303 and is connected with the sliding manner, the retractable cable 1301 is electrically connected with the power transmission terminal 1302, the device trigger mechanism 14 comprises a device trigger mechanism shell 1401, a terminal controller 1402, a trigger terminal 1403, a mobile terminal 1404, a mobile groove 1405, a linking spring 1406, a pressing block 1407, a blade positioning block 1408, a mobile linking block 1409 and a linkage pressure lever 1410, the terminal controller 1402 is arranged inside the device trigger mechanism shell 1401 and is connected in a fixed installation manner, the terminal controller 1402 is electrically connected with the trigger terminal 1403, the mobile terminal 1404 is arranged at the left end of the linkage pressure lever 1410 and is connected in a welding manner, the mobile linking block 1409 is arranged inside the mobile groove 1405 and is connected in a movable manner, the linkage pressure lever 1410 penetrates through the center of the linking spring 1406, the pressing block 1407 is arranged at the right end of the linkage pressure lever 1410 and is connected in a linkage manner, the linkage pressure lever 1410 is arranged at the lower end of the mobile linking block 1409 and is of an integrated structure, the blade positioning block 1408 is arranged at the right end of the device trigger mechanism shell 1401 and is connected with the device trigger mechanism shell 1401 by welding, the terminal controller 1402 is electrically connected with the mechanical transmission mechanism 15, the mechanical transmission mechanism 15 comprises a mechanical transmission mechanism shell 1501, a motor fixing seat 1502, a micro-driving motor 1503, a rotating rod positioning ring 1504, a threaded rotating rod 1505, a displacement groove 1506, a transmission sliding plate 1507, an internal thread block 1508 and a spacing baffle 1509, the motor fixing seat 1502 is arranged on the inner wall of the mechanical transmission mechanism shell 1501 and is connected with the mechanical transmission mechanism shell 1501 by means of fitting, the motor fixing seat 1502 is arranged at the left end of the micro-driving motor 1503 and is connected with the mechanical transmission mechanism shell by means of welding, the micro-driving motor 1503 is arranged at the left end of the threaded rotating rod 1505 and is connected with the rotating rod positioning ring 1504 in the same axle center and, the displacement groove 1506 is arranged at the lower end of the mechanical transmission mechanism shell 1501 and is of an integrated structure, the transmission sliding plate 1507 is arranged at the right end of the internal thread block 1508 and is connected with the internal thread block 1508 in a linkage manner, the internal thread block 1508 and the thread rotating rod 1505 are arranged on the same axis and are connected with each other in a thread transmission manner, the limiting baffle 1509 is arranged inside the mechanical transmission mechanism shell 1501 and is connected with each other in a fixed mounting manner, the conductive end positioning mechanism 16 comprises a positioning rotary disc 1601, a reset torsion spring 1602, a hinge movable rod 1603, a positioning pressure rod 1604 and a track pressure block 1605, the reset torsion spring 1602 is arranged at the positive end face of the positioning rotary disc 1601 and is connected with each other in a transmission fit manner, the hinge movable rod 1603 is arranged at the upper end of the positioning pressure rod 1604 and is connected with each other in a linkage manner, the positioning pressure rod 1604 is arranged at the upper end of the track pressure block 160 The driving reinforcement mechanism 17 comprises a driving reinforcement mechanism shell 1701, a powerful electromagnet 1702, a movable magnetic plate 1703, an air inflation pipe 1704, a sealing joint plate 1705, an air inflation channel 1706, a movable frame 1707, a return spring 1708, an embedded groove 1709 and a conductive controller 1710, the powerful electromagnet 1702 is electrically connected with a conductive controller 1710, the conductive controller 1710 is arranged inside the casing 1701 of the driving reinforcement mechanism and is connected with the casing 1701 in a fixed installation way, the moving magnetic plate 1703 is provided at the left end of the inflation tube 1704 and is connected by a drive fit, the sealing joint plate 1705 is provided at the left end of the inflation channel 1706 and connected by a sealing installation, the moving frame 1707 is provided inside the drive reinforcement mechanism case 1701 and is connected by welding, the return spring 1708 is disposed inside the insertion groove 1709 and is in transition fit.

The invention relates to an intelligent wearable product with a convenient charging system device, which has the working principle that: a convenient charging system is arranged in the intelligent watch body 5, when charging is needed, the connecting end of a charging wire is connected into a reinforced anti-abrasion charging end 1, a butt joint guide sheet 1201 is inserted into a corresponding groove of the connecting end of the charging wire, current is led into the butt joint guide sheet 1201 through a connecting chip 1202, finally the current enters the intelligent watch body 5 through a power transmission end 1302, when charging is finished, the connecting end of the charging wire is pulled out, an engaging spring 1406 in a compressed state removes elastic force limitation and rebounds to drive a connected extrusion block 1407, the extrusion block 1407 drives a mobile terminal 1404 to be disconnected from a contact with a trigger terminal 1403 through a linkage pressure rod 1410, a terminal controller 1402 controls a micro-drive motor 1503 to start to operate, the micro-drive motor 1503 transmits rotating mechanical energy to a thread rotating rod 1505, the internal thread block 1508 drives a transmission sliding plate 1507 to move through rotation of the thread rotating rod 1505, the transmission sliding plate 1507 drives the transmission plate 1304, the engaging driving plate 1304 drives the docking guide 1201 to retract into the device triggering mechanism housing 1401, in the process of connecting the connecting end of the charging wire into the reinforced anti-abrasion charging end 1, the positioning pressure rod 1604 is embedded into the chute on the connecting end of the charging wire, when the wire is inserted, the positioning pressure lever 1604 is acted by the limiting block at the front end of the connecting end of the primary charging wire, the positioning pressure lever 1604 moves upwards, when the touch switch 1103 is touched, the electric conduction controller 1710 conducts electric current to the powerful electromagnet 1702, the powerful electromagnet 1702 generates repulsive force to the moving magnetic plate 1703, the moving magnetic plate 1703 moves to push the gas in the gas-filled tube 1704 into the moving frame 1707, so that the hinge moving rod 1603 in the moving frame 1707 generates acting force on the positioning pressure rod 1604 to increase the positioning effect, and when being pulled out, upon making contact with touch switch 1103 again, conductive controller 1710 disconnects the current output to powerful electromagnet 1702.

The invention solves the problem that the charging end of the intelligent watch in the prior art adopts an exposed structure, when the charging is finished and the charging wire is pulled out, the charging end is contacted with the external environment, dust in the air easily enters into the charging end and is attached to the chip on the conductive end, so that the chip and the charging wire connecting end are mixed with dust particles and are abraded when the charging is carried out next time, the service life of the chip and the charging wire connecting end is reduced, meanwhile, a structure for positioning the chute on the charging wire connecting end is arranged in the charging end of the intelligent watch, the chute on the charging wire connecting end is easily deformed in the pulling-out and inserting process of one time, the positioning effect of the positioning structure in the charging end of the intelligent watch on the chute on the charging wire connecting end is weakened, the intelligent watch adopts the mutual combination of the components, and after the charging is carried out, the inside conducting strip automatic retraction of intelligence wrist-watch end that charges and the structure of outside air disconnection contact, the effectual dust that prevents is attached to on the conducting strip, causes the life reduction of chip and charging wire link, simultaneously, when being equipped with the charging wire link and inserting the intelligent wrist-watch end that charges, increases the fixed structure in location, helps preventing to make the location effect reduce because of the spout deformation on the charging wire link.

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 (1)

1. An intelligent wearable product with a convenient charging system device structurally comprises a reinforcing type abrasion-proof charging end (1), an adjusting knob (2), a fixed clamping groove (3), a liquid crystal display (4), an intelligent watch body (5), a watch band connecting block (6), a starting switch (7) and an intelligent watch band (8), wherein the reinforcing type abrasion-proof charging end (1) is arranged inside the intelligent watch body (5) and is connected in a fixed mounting mode, the adjusting knob (2) is arranged at the right end of the intelligent watch body (5) and is connected in a rotating mode, the fixed clamping groove (3) is arranged at the positive end face of the intelligent watch body (5) and is an integrated structure, the watch band connecting block (6) is arranged at the lower end of the intelligent watch body (5) and is connected in a fixed mounting mode, the liquid crystal display (4) is arranged at the positive end face of the intelligent watch body (5) and is connected in an embedding mounting mode, start switch (7) adopt the electricity to be connected with intelligent watch body (5), wrist-watch strap (8) are located wrist-watch strap and link up piece (6) lower extreme and are connected its characterized in that through the mode of hinge activity:

the reinforced anti-abrasion charging end (1) comprises a charging positioning mechanism (11), a charging connecting mechanism (12), a conductive accommodating mechanism (13), a device triggering mechanism (14), a mechanical transmission mechanism (15), a conductive end positioning mechanism (16) and a driving reinforcing mechanism (17), the charging connecting mechanism (12) is arranged in the charging positioning mechanism (11) and is connected in a fixed mounting way, the charging connection mechanism (12) is electrically connected with the conductive receiving mechanism (13), the conductive accommodating mechanism (13) is arranged at the lower end of the mechanical transmission mechanism (15) and is connected in a transmission matching way, the mechanical transmission mechanism (15) is electrically connected with the device triggering mechanism (14), the conductive end positioning mechanism (16) is arranged at the lower end of the driving reinforcing mechanism (17) and is connected in a linkage transmission matching manner;

the charging positioning mechanism (11) comprises an apparatus shell (1101), a charging inlet (1102) and a touch switch (1103), wherein the charging inlet (1102) is arranged inside the apparatus shell (1101) and is of an integrated structure, and the touch switch (1103) is arranged inside the apparatus shell (1101) and is connected in a fixed installation manner;

the charging connection mechanism (12) comprises a butt joint guide sheet (1201) and a connection chip (1202), the connection chip (1202) is arranged at the upper end of the butt joint guide sheet (1201) and connected in an embedding installation mode, and the butt joint guide sheet (1201) is electrically connected with the conductive receiving mechanism (13);

the conductive accommodating mechanism (13) comprises a telescopic cable (1301), a power transmission end (1302), a sliding groove (1303) and a connecting transmission plate (1304), wherein the telescopic cable (1301) is arranged at the left end of the connecting transmission plate (1304) and is connected with the connecting transmission plate in a transmission matching mode, the telescopic cable (1301) is arranged inside the sliding groove (1303) and is connected with the sliding transmission plate in a sliding mode, and the telescopic cable (1301) is electrically connected with the power transmission end (1302);

the device trigger mechanism (14) comprises a device trigger mechanism shell (1401), a terminal controller (1402), a trigger terminal (1403), a mobile terminal (1404), a mobile groove (1405), a connecting spring (1406), a pressing block (1407), a blade positioning block (1408), a mobile connecting block (1409) and a linkage pressure lever (1410), wherein the terminal controller (1402) is arranged inside the device trigger mechanism shell (1401) and is connected in a fixed installation mode, the terminal controller (1402) is electrically connected with the trigger terminal (1403), the mobile terminal (1404) is arranged at the left end of the linkage pressure lever (1410) and is connected in a welding mode, the mobile connecting block (1409) is arranged inside the mobile groove (1405) and is connected in a movable mode, the linkage pressure lever (1410) penetrates through the center of the connecting spring (1406), the pressing block (1407) is arranged at the right end of the linkage pressure lever (1410) and is connected in a linkage mode, the linkage pressing rod (1410) is arranged at the lower end of the movable connecting block (1409) and is of an integrated structure, the blade positioning block (1408) is arranged at the right end of the device triggering mechanism shell (1401) and is connected with the device triggering mechanism shell in a welding mode, and the terminal controller (1402) is electrically connected with the mechanical transmission mechanism (15);

the mechanical transmission mechanism (15) comprises a mechanical transmission mechanism shell (1501), a motor fixing seat (1502), a miniature driving motor (1503), a rotating rod positioning ring (1504), a threaded rotating rod (1505), a displacement groove (1506), a transmission sliding plate (1507), an internal thread block (1508) and a limiting partition plate (1509), wherein the motor fixing seat (1502) is arranged on the inner wall of the mechanical transmission mechanism shell (1501) and connected in a fitting mode, the motor fixing seat (1502) is arranged at the left end of the miniature driving motor (1503) and connected in a welding mode, the miniature driving motor (1503) is arranged at the left end of the threaded rotating rod (1505) and connected in a rotating mode, the threaded rotating rod (1505) and the rotating rod positioning ring (1504) are positioned on the same axis and connected in a movable mode, the displacement groove (1506) is arranged at the lower end of the mechanical transmission mechanism shell (1501) and is of an integrated structure, the transmission sliding plate (1507) is arranged at the right end of an internal thread block (1508) and is connected in a linkage mode, the internal thread block (1508) and a thread rotating rod (1505) are positioned at the same axial center and are connected in a thread transmission mode, and the limiting partition plate (1509) is arranged inside a mechanical transmission mechanism shell (1501) and is connected in a fixed installation mode;

the conductive end positioning mechanism (16) comprises a positioning rotary table (1601), a reset torsion spring (1602), a hinge movable rod (1603), a positioning pressure rod (1604) and a track pressing block (1605), wherein the reset torsion spring (1602) is arranged on the positive end face of the positioning rotary table (1601) and is connected in a transmission fit mode, the hinge movable rod (1603) is arranged on the upper end of the positioning pressure rod (1604) and is connected in a linkage mode, the positioning pressure rod (1604) is arranged on the upper end of the track pressing block (1605) and is of an integrated structure, and the hinge movable rod (1603) is arranged at the lower end of a driving reinforcement mechanism (17) and is connected in a transmission fit mode through linkage;

the driving reinforcement mechanism (17) comprises a driving reinforcement mechanism shell (1701), a powerful electromagnet (1702), a movable magnetic plate (1703), an inflation pipeline (1704), a sealing joint plate (1705), an inflation channel (1706), a movable frame (1707), a return spring (1708), an embedded groove (1709) and a conductive controller (1710), wherein the powerful electromagnet (1702) is electrically connected with the conductive controller (1710), the conductive controller (1710) is arranged inside the driving reinforcement mechanism shell (1701) and is connected with the driving reinforcement mechanism shell in a fixed installation mode, the movable magnetic plate (1703) is arranged at the left end of the inflation pipeline (1704) and is connected with the inflation pipeline in a transmission matching mode, the sealing joint plate (1705) is arranged at the left end of the inflation channel (1706) and is connected with the inflation channel in a sealing installation mode, the movable frame (1707) is arranged inside the driving reinforcement mechanism shell (1701) and is connected with the inflation channel (1701) in a welding mode, the return spring (1708) is arranged in the embedded groove (1709) and is in transition fit.

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