CN116160240A

CN116160240A - Intelligent watch charging electrode pressing device

Info

Publication number: CN116160240A
Application number: CN202310271059.3A
Authority: CN
Inventors: 李倩
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-03-20
Filing date: 2023-03-20
Publication date: 2023-05-26

Abstract

The invention belongs to the technical field of assembly of charging electrodes of intelligent watches, and relates to an intelligent watch charging electrode pressing device. The invention provides a charging electrode pressing device of an intelligent watch, which comprises a guide cylinder, conical elastic pieces and a pressing mechanism, wherein the front side of a support table is connected with two guide cylinders used for guiding a charging electrode, the bottoms of the guide cylinders are connected with the conical elastic pieces used for positioning and aligning the charging electrode, and the front side of the support table is provided with the pressing mechanism so that a pressing plate can move to extend into the guide cylinders to press the charging electrode when moving downwards. According to the invention, the charging electrode can be guided and discharged through the guide cylinder, then the conical elastic piece can be used for positioning and aligning the charging electrode, and then the electric push rod is used as a driving force to drive the lower pressing plate to move downwards, so that the lower pressing plate can extend into the guide cylinder to press and assemble the charging electrode under the cooperation of the wedge-shaped plate and the roller.

Description

Intelligent watch charging electrode pressing device

Technical Field

The invention belongs to the technical field of assembly of charging electrodes of intelligent watches, and relates to an intelligent watch charging electrode pressing device.

Background

The intelligent watch has information processing capability, meets the basic technical requirements of the watch, and is charged in a wireless charging mode and a contact charging mode.

Utilize intelligent wrist-watch that contact charges in the equipment process, need the manual work to put the backshell of wrist-watch on the installer, then put the mounting hole of wrist-watch backshell with the electrode that charges in the hand, press the installer again, with the electrode that charges in the mounting hole, because the volume of charging electrode is less, the manual work is put the electrode that charges in the mounting hole with the accuracy lower, put the electrode that charges very easily, workman's naked eye can be difficult to discover moreover, if directly will put the electrode that charges of off set in the mounting hole, can destroy the mounting hole, also probably can lead to the follow-up intelligent wrist-watch that assembles to appear a large amount of trouble, influence user experience.

Disclosure of Invention

In order to overcome the defect that the accuracy of manually placing the charging electrode into the mounting hole is low and the charging electrode is easy to deflect, the invention aims to provide the intelligent watch charging electrode pressing device capable of automatically pressing the charging electrode into the mounting hole accurately.

The invention is realized by the following technical approaches:

the utility model provides an intelligence wrist-watch electrode pressure device that charges, including base and brace table, be connected with the brace table on the base, still including guide cylinder, toper elastic component and press-in mechanism, the front side of brace table is connected with two guide cylinders that are used for leading the electrode that charges, guide cylinder bottom all is connected with the toper elastic component that is used for carrying out the location alignment to the electrode that charges, be equipped with press-in mechanism on the guide cylinder, press-in mechanism is including drive assembly, holding down plate and moving assembly, drive assembly is used for driving the holding down plate reciprocates, moving assembly is used for driving holding down plate horizontal translation, so that the holding down plate can remove to stretch into in the guide cylinder and press down the electrode that charges when down plate down moves.

Optionally, the drive assembly is including electric putter, installing frame and guide bar, and electric putter is all installed to guide cylinder lateral wall, all is connected with the installing frame on electric putter's the telescopic link, all is connected with the guide bar on the installing frame, and holding down plate and guide bar sliding connection and can control the removal.

Optionally, remove the subassembly and including wedge plate, first elastic component and gyro wheel, guide cylinder lateral wall all is connected with the wedge plate, and the wedge plate is located the electric putter below, and installation frame and holding down plate are connected to first elastic component so that holding down plate elasticity resets, and all rotation is connected with the gyro wheel on the holding down plate, and the gyro wheel rolls on the lateral wall of wedge plate, and when the holding down plate drove the gyro wheel down motion, the wedge plate can extrude the gyro wheel to remove towards one side that is close to each other to make the holding down plate stretch into in the guide cylinder to charge electrode and press.

Optionally, still including the positioning mechanism that is used for carrying out the location to the wrist-watch backshell, positioning mechanism is connected with the fixed column including fixed column, rotation frame and spacing subassembly on the base, and rotation is connected with the rotation frame that is used for driving wrist-watch backshell pivoted on the fixed column, is equipped with spacing subassembly on the base, and spacing subassembly is used for spacing the rotation frame, makes the mounting hole on the wrist-watch backshell can aim at under the toper elastic component.

Optionally, the spacing subassembly is including stopper and fixture block, is connected with the stopper on the base, is connected with the fixture block on the rotation frame lateral wall, and the fixture block can rotate together with the rotation frame, and the fixture block rotates to when contacting with the stopper, rotates the frame and stops rotating.

Optionally, still including the unloading mechanism that is used for carrying out automatic unloading to the electrode that charges, unloading mechanism is including the support column, charge the frame, the subassembly and the guide component of rectifying, is connected with the support column on the base, and the support column top is connected with the frame that charges that is used for storing the electrode that charges, and the subassembly that rectifies is arranged in with the charging electrode of charging in the frame and sends into the guide component to make the electrode that charges can automatic transmission to in the guide cylinder.

Optionally, the subassembly is just including servo motor, the oar is just to the pendulum, gag lever post and deflector, install servo motor on the frame lateral wall that charges, be connected with the oar that just, the oar is just being located the frame of charging and is connected with the frame rotation of charging to the pendulum, is equipped with two sets of gag lever posts in the frame of charging, and the oar rotation of just rectifying can stir the electrode of charging and swing between every set of gag lever post, is connected with the deflector that is used for falling between every set of gag lever post to the electrode direction of charging between two sets of gag lever posts.

Optionally, the guide assembly is including guide frame and unloading pipe, installs the guide frame on the charging frame lateral wall, and the guide frame is located the servo motor below, and the pendulum is just in time stirred the transmission to the guide frame with the charging electrode that pendulum just in time to the paddle rotation, and the guide frame front side is connected with two unloading pipes, unloading pipe lower extreme and guide cylinder upper end intercommunication, charging electrode accessible unloading pipe transmission to the guide cylinder in.

Optionally, still including the intermittent type mechanism that is used for controlling the charging electrode and carries out single intermittent type nature unloading, intermittent type mechanism is including blocking the piece and pushing down the subassembly, and the inboard upper portion of unloading pipe all is connected with the piece that blocks that is used for stopping the charging electrode unloading, is equipped with down the subassembly on the guide frame, pushes down the subassembly and is used for pressing down the charging electrode on the piece that blocks and carries out the unloading.

Optionally, the subassembly is pushed down including supporting shoe, the depression bar down, the second elastic component, the sleeve pipe, stay cord and connecting block, the guide frame front side is connected with two supporting shoes, all slidingtype connection has the depression bar down on the supporting shoe, the depression bar is located directly over the unloading pipe down, the depression bar down moves and can be pressed down the charging electrode on the barrier, the second elastic component is connected down and the supporting shoe so that the depression bar upwards elastic reset down, the supporting shoe front side all is connected with the sleeve pipe, intraductal all slidingtype connection has the stay cord, all be connected with the connecting block on the installing frame, depression bar and connecting block down are connected to the stay cord, so that the depression bar down can down move.

Compared with the prior art, the invention has the following advantages:

1. according to the invention, the charging electrode can be guided and discharged through the guide cylinder, then the conical elastic piece can be used for positioning and aligning the charging electrode, and then the electric push rod is used as a driving force to drive the lower pressing plate to move downwards, so that the lower pressing plate can extend into the guide cylinder to press and assemble the charging electrode under the cooperation of the wedge-shaped plate and the roller.

2. According to the invention, the rotating frame can drive the watch rear shell to rotate, and the rotating frame can be positioned through the cooperation of the limiting block and the clamping block, so that the mounting hole on the mobile phone rear shell can be aligned with the position right below the conical elastic piece, and the accuracy of charging electrode assembly is improved.

3. The charging frame can be used for loading and taking a proper amount of charging electrodes, the servo motor is used as a driving force to drive the centering paddles to rotate, the charging electrodes are centered and transmitted into the guide frame, the charging electrodes can drop down into the guide cylinder through the blanking pipe, the automatic blanking function of the charging electrodes is completed, and the working efficiency is improved.

4. According to the invention, the lower pressure rod can be driven to move up and down through the up-and-down movement of the mounting frame, the charging electrode on the blocking piece can be pressed down through the down pressure rod, and the upper part of the blanking pipe can be blocked, so that a plurality of charging electrodes can be prevented from falling into the guide cylinder at one time.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a press-in mechanism according to the present invention.

Fig. 3 is a schematic perspective view of the positioning mechanism of the present invention.

Fig. 4 is a schematic perspective view of a blanking mechanism of the present invention.

Fig. 5 is a schematic cross-sectional structure of the blanking mechanism of the present invention.

Fig. 6 is a schematic perspective view of the charging frame, the limit lever and the guide plate according to the present invention.

Fig. 7 is a schematic perspective view of the intermittent mechanism of the present invention.

Fig. 8 is a schematic perspective view of the mounting frame, sleeve, pull cord and connection block of the present invention.

Reference numerals illustrate: 1: base, 2: supporting bench, 3: guide cylinder, 4: conical elastic member, 5: press-in mechanism, 511: electric putter, 512: mounting frame, 513: guide bar, 52: lower clamp plate, 531: wedge plate, 532: first elastic member, 533: roller, 6: positioning mechanism, 61: fixing post, 62: rotating frame 631: stopper, 632: clamping block, 7: unloading mechanism, 71: support column, 72: charging frame, 731: servo motor, 732: straightening paddles, 733: limit lever, 734: guide plate, 741: guide frame, 742: blanking pipe, 8: intermittent mechanism, 81: barrier, 821: support block 822: pressing rod 823: second elastic member, 824: sleeve, 825: pull rope, 826: and (5) connecting a block.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings, for the purpose of making the objects, technical solutions and advantages of the present invention more apparent. It is only stated that the terms of orientation, such as up, down, left, right, front, back, interior, exterior, etc., used herein, or immediately before, are used merely as references to the drawings of the present invention, and are not intended to limit the present invention to the specific form or form of the present invention, and the components themselves are numbered herein, for example: first, second, etc. are used solely to distinguish between the described objects and do not have any sequential or technical meaning. And the application is said to be as follows: connection, coupling, unless specifically stated otherwise, includes both direct and indirect connection (coupling).

Example 1

The utility model provides an intelligence wrist-watch electrode presser that charges, refer to fig. 1 and 2, including base 1 and brace table 2, be connected with brace table 2 on the base 1, still including guide cylinder 3, toper elastic component 4 and mechanism 5 of impressing, the front side welding of brace table 2 has two guide cylinders 3, guide cylinder 3 bottom all is connected with toper elastic component 4, put into guide cylinder 3 with the electrode that charges, guide cylinder 3 can lead the electrode that charges, toper elastic component 4 can carry out the location alignment to the electrode that charges, be equipped with mechanism 5 of impressing on the guide cylinder 3, mechanism 5 of impressing is including drive assembly, holding down plate 52 and moving assembly, drive assembly can drive holding down plate 52 down to move simultaneously and stretch into in the guide cylinder 3 towards one side that is close to each other, then holding down plate 52 can press down the electrode that charges and accomplish the equipment work.

Referring to fig. 2, the driving assembly includes an electric push rod 511, a mounting frame 512 and a guide rod 513, the side wall of the guide cylinder 3 is bolted with the electric push rod 511, the telescopic rods of the electric push rod 511 are connected with the mounting frame 512, the mounting frame 512 is welded with the guide rod 513, the lower pressure plate 52 is slidably connected with the guide rod 513, and the mounting frame 512 is driven by the electric push rod 511 to move downwards, so that the lower pressure plate 52 can be driven to move downwards to press the charging electrode.

Referring to fig. 2, the moving assembly includes a wedge plate 531, a first elastic member 532 and a roller 533, the side walls of the guide cylinder 3 are all connected with the wedge plate 531, the wedge plate 531 is located below the electric push rod 511, the first elastic member 532 is connected with the mounting frame 512 and the lower pressure plate 52 to elastically reset the lower pressure plate 52, the roller 533 is rotationally connected with the roller 533 on the lower pressure plate 52, the roller 533 rolls on the side walls of the wedge plate 531, and when the lower pressure plate 52 moves downwards, the roller 533 is driven to move downwards, at this time, the wedge plate 531 can squeeze the roller 533 to move towards one side close to each other, so that the lower pressure plate 52 moves towards one side close to each other and stretches into the guide cylinder 3 to press the charging electrode.

Firstly, the watch backshell is placed on the base 1, then two charging electrodes are respectively placed in two guide cylinders 3, the charging electrodes can drop down onto the conical elastic pieces 4, the conical elastic pieces 4 can block the bottoms of the charging electrodes, then the telescopic rods of the electric push rods 511 are controlled to stretch, the mounting frames 512 are driven to move downwards, accordingly, the guide rods 513, the lower pressing plates 52 and the rollers 533 are driven to move downwards, the rollers 533 roll on the side walls of the wedge plates 531, when the rollers 533 roll to the inclined positions of the side walls of the wedge plates 531, the wedge plates 531 can squeeze the rollers 533 to move towards one side close to each other, the lower pressing plates 52 are driven to move towards one side close to each other, the first elastic pieces 532 are compressed, the lower pressing plates 52 extend into the guide cylinders 3, at the moment, the lower pressing plates 52 continuously move downwards, when the lower pressing plates 52 are in contact with the charging electrodes, the charging electrodes are pressed downwards, the charging electrodes are enabled to squeeze the conical elastic pieces 4 to deform, the charging electrodes are enabled to vertically move downwards under the elastic action of the conical elastic pieces 4, and accordingly the charging electrodes can be accurately pressed into the mounting holes on the backshell, and the watch can be accurately pressed into the mounting holes on the sides of the watch, and the conical elastic pieces 4 can be separated from the conical elastic pieces 4 when the charging electrodes are assembled.

Example 2

On the basis of embodiment 1, refer to fig. 1 and 3, still including positioning mechanism 6, positioning mechanism 6 is including fixed column 61, rotating frame 62 and spacing subassembly, the welding has fixed column 61 on the base 1, rotationally be connected with on the fixed column 61 and be used for driving wrist-watch backshell pivoted rotating frame 62, be equipped with spacing subassembly on the base 1, spacing subassembly can carry out spacing to rotating frame 62, spacing subassembly is including stopper 631 and fixture block 632, be connected with stopper 631 on the base 1, the welding has fixture block 632 on the rotating frame 62 lateral wall, place the wrist-watch backshell in rotating frame 62, then rotate rotating frame 62 towards the direction that is close to guide cylinder 3, can drive wrist-watch backshell and fixture block 632 rotation, the mounting hole on the wrist-watch backshell can aim at under the toper elastic component 4 when fixture block 632 rotates to the contact with stopper 631.

Firstly, the rotating frame 62 is rotated forwards by 90 degrees, the clamping block 632 is driven to rotate forwards to be separated from the limiting block 631, then the mobile phone rear shell is placed into the rotating frame 62, the rotating frame 62 is reset by 90 degrees in a reverse mode, the clamping block 632 is driven to reset by 90 degrees in a reverse mode to be in contact with the limiting block 631, the limiting block 631 can limit the clamping block 632, accordingly, the rotating frame 62 can be limited, the mounting hole on the mobile phone rear shell can be aligned with the position right below the conical elastic piece 4, and the charging electrode can be pressed into the mounting hole on the watch rear shell more accurately.

Referring to fig. 1 and 4, the charging device further comprises a discharging mechanism 7, the discharging mechanism 7 comprises a supporting column 71, a charging frame 72, a straightening component and a guiding component, the supporting column 71 is connected to the base 1, the top of the supporting column 71 is connected with the charging frame 72, the charging frame 72 can be used for charging an appropriate amount of charging electrodes, the straightening component can be used for poking and straightening the charging electrodes in the charging frame 72 and sending the charging electrodes into the guiding component, and the guiding component can be used for conveying the charging electrodes into the guiding cylinder 3.

Referring to fig. 5 and 6, the centering assembly includes a servo motor 731, a centering paddle 732, limiting rods 733 and a guide plate 734, the side wall of the charging frame 72 is bolted with the servo motor 731, referring to fig. 5, the output shaft of the servo motor 731 is connected with the centering paddle 732, the centering paddle 732 is composed of a rotating rod and a helical blade, the rotating rod is connected with the output shaft of the servo motor 731 through a coupling, the helical blade is fixedly connected with the rotating rod, the helical blade is made of a softer material, the centering paddle 732 is located in the charging frame 72 and is rotationally connected with the charging frame 72, two groups of limiting rods 733 are welded in the charging frame 72, the number of each group of limiting rods 733 is two, the limiting rods 733 is four, the charging electrode falls between the two limiting rods 733 of each group, the centering paddle 732 rotates to shift the charging electrode which is not centered between the two limiting rods 733 of each group, the charging electrode falls off again to be centered 734, referring to fig. 6, the guide plate 734 is connected between the two limiting rods 733, and the left and right sides of the guide plate are welded to the two groups of the charging electrode 733, and the guide plate can fall between the two limiting rods 733.

Referring to fig. 4 and 5, the guiding assembly comprises a guiding frame 741 and a discharging tube 742, the guiding frame 741 is installed on the side wall of the charging frame 72, the guiding frame 741 is located below the servo motor 731, the righting paddle 732 rotates to toggle and convey the righted charging electrode into the guiding frame 741, two discharging tubes 742 are connected to the front side of the guiding frame 741, the lower end of the discharging tube 742 is communicated with the upper end of the guiding cylinder 3, and the charging electrode can be conveyed into the guiding cylinder 3 through the discharging tube 742.

Firstly, a proper amount of charging electrodes are placed into the charging frame 72, under the guiding action of the guide plate 734, the charging electrodes can fall between two limiting rods 733 of each group, at this time, a righted charging electrode and a non-righted charging electrode are arranged between the two limiting rods 733 of each group, then the righting paddle 732 is driven to slowly rotate by the servo motor 731, the righting paddle 732 can spirally stir the charging electrodes, the non-righted charging electrodes are pulled out, and the charging electrodes can be positioned between the two limiting rods 733 of each group in a reciprocating manner, meanwhile, the righting paddle 732 rotates to slowly push the charging electrodes forwards into the guide frame 741, and when the charging electrode at the forefront side is pushed into the blanking tube 742, the charging electrode can fall downwards into the guide cylinder 3 under the action of gravity, so that an automatic blanking function is completed.

Referring to fig. 1, fig. 7 and fig. 8, still including intermittent mechanism 8, intermittent mechanism 8 is including blocking 81 and pushing down the subassembly, the inboard upper portion of unloading pipe 742 all is connected with blocking 81, blocking 81 can block the charging electrode of leading side in the guide frame 741, avoid simultaneously having a plurality of charging electrodes to drop down in the guide cylinder 3, be equipped with down the subassembly on the guide frame 741, the subassembly of pushing down is including supporting shoe 821, the push down pole 822, the second elastic component 823, the sleeve pipe 824, stay 825 and connecting block 826, two supporting shoe 821 have been welded to the guide frame 741 front side, refer to fig. 7, all sliding connection has the push down pole 822 on the supporting shoe 821, the push down pole 822 is located directly over the unloading pipe 742, the push down pole 822 moves down and can press down the charging electrode on blocking 81, and can block down the pipe 742, make other charging electrode unable unloading, second elastic component 823 connects push down pole and supporting shoe 821 in order to make push down pole 822 upwards elastic reset, the front side of supporting shoe 821 all is connected with sleeve pipe 824, all sliding connection has the push down pole 825 and connecting block 822, all sliding connection has the connecting block 825, all connecting block 512 are connected with.

When the forefront charging electrode in the guide frame 741 is pushed into the blanking tube 742, the blocking piece 81 blocks the forefront charging electrode, when the mounting frame 512 moves downwards, the lower pressing rod 822 can be pulled to move downwards through the connecting block 826 and the pull rope 825, the sleeve 824 guides the pull rope 825, the second elastic piece 823 compresses, the lower pressing rod 822 can press the charging electrode on the blocking piece 81 downwards, the charging electrode can squeeze the blocking piece 81 to deform, then the charging electrode can drop downwards in the guide cylinder 3 through the blanking tube 742, then the lower pressing plate 52 can extend into the guide cylinder 3 to press the charging electrode, and the assembly work is completed, and at the moment, the upper part of the blanking tube 742 is blocked by the lower pressing rod 822, so that a plurality of charging electrodes can be prevented from falling in the guide cylinder 3 at one time.

The foregoing is merely illustrative of the present invention, and the present invention is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. The utility model provides an intelligence wrist-watch electrode presser that charges, including base (1) and brace table (2), be connected with brace table (2) on base (1), a serial communication port, still including guide cylinder (3), toper elastic component (4) and mechanism of impressing (5), the front side of brace table (2) is connected with two guide cylinders (3) that are used for leading the electrode that charges, guide cylinder (3) bottom all is connected with and is used for carrying out toper elastic component (4) that the location was aimed at to the electrode that charges, be equipped with mechanism of impressing (5) on guide cylinder (3), mechanism of impressing (5) are including drive assembly, holding down plate (52) and moving assembly, drive assembly is used for driving holding down plate (52) reciprocates, moving assembly is used for driving holding down plate (52) horizontal translation, can move when making holding down plate (52) down and stretch into in guide cylinder (3) to press the electrode that charges.

2. The intelligent watch charging electrode pressing device according to claim 1, wherein the driving assembly comprises an electric push rod (511), a mounting frame (512) and a guide rod (513), the electric push rod (511) is mounted on the side wall of the guide cylinder (3), the mounting frame (512) is connected to the telescopic rods of the electric push rod (511), the guide rod (513) is connected to the mounting frame (512), and the lower pressing plate (52) is slidably connected with the guide rod (513) and can move left and right.

3. The intelligent watch charging electrode pressing device according to claim 2, wherein the moving assembly comprises a wedge plate (531), a first elastic piece (532) and a roller (533), the side walls of the guide cylinder (3) are connected with the wedge plate (531), the wedge plate (531) is located below the electric push rod (511), the first elastic piece (532) is connected with the mounting frame (512) and the lower pressing plate (52) to enable the lower pressing plate (52) to elastically reset, the roller (533) is rotationally connected to the lower pressing plate (52), the roller (533) rolls on the side walls of the wedge plate (531), and when the lower pressing plate (52) drives the roller (533) to move downwards, the wedge plate (531) can squeeze the roller (533) to move towards one side close to each other, so that the lower pressing plate (52) stretches into the guide cylinder (3) to press the charging electrode.

4. The intelligent watch charging electrode pressing device according to claim 3, further comprising a positioning mechanism (6) for positioning the watch rear case, wherein the positioning mechanism (6) comprises a fixed column (61), a rotating frame (62) and a limiting assembly, the fixed column (61) is connected to the base (1), the rotating frame (62) for driving the watch rear case to rotate is rotationally connected to the fixed column (61), the limiting assembly is arranged on the base (1) and used for limiting the rotating frame (62), and a mounting hole on the watch rear case can be aligned under the conical elastic piece (4).

5. The device according to claim 4, wherein the limiting assembly comprises a limiting block (631) and a clamping block (632), the limiting block (631) is connected to the base (1), the clamping block (632) is connected to the side wall of the rotating frame (62), the clamping block (632) can rotate with the rotating frame (62), and the rotating frame (62) stops rotating when the clamping block (632) rotates to be in contact with the limiting block (631).

6. The intelligent watch charging electrode pressing device according to claim 5, further comprising a discharging mechanism (7) for automatically discharging the charging electrode, wherein the discharging mechanism (7) comprises a supporting column (71), a charging frame (72), a straightening component and a guiding component, the supporting column (71) is connected to the base (1), the charging frame (72) for storing the charging electrode is connected to the top of the supporting column (71), and the straightening component is used for straightening the charging electrode in the charging frame (72) and sending the charging electrode into the guiding component so that the charging electrode can be automatically transmitted to the guiding cylinder (3).

7. The intelligent watch charging electrode pressing device according to claim 6, wherein the centering assembly comprises a servo motor (731), centering paddles (732), limiting rods (733) and a guide plate (734), the servo motor (731) is installed on the side wall of the charging frame (72), the centering paddles (732) are connected to an output shaft of the servo motor (731), the centering paddles (732) are located in the charging frame (72) and are rotatably connected with the charging frame (72), two groups of limiting rods (733) are arranged in the charging frame (72), the charging electrode can be shifted between each group of limiting rods (733) by rotating the centering paddles (732), and the guide plate (734) used for guiding the charging electrode to fall between each group of limiting rods (733) is connected between the two groups of limiting rods (733).

8. The intelligent watch charging electrode pressing device according to claim 7, wherein the guiding assembly comprises a guiding frame (741) and a discharging pipe (742), the guiding frame (741) is installed on the side wall of the charging frame (72), the guiding frame (741) is located below the servo motor (731), the righting paddle (732) rotates to stir and convey the righted charging electrode into the guiding frame (741), two discharging pipes (742) are connected to the front side of the guiding frame (741), the lower ends of the discharging pipes (742) are communicated with the upper ends of the guiding barrels (3), and the charging electrode can be conveyed into the guiding barrels (3) through the discharging pipe (742).

9. The intelligent watch charging electrode pressing device according to claim 8, further comprising an intermittent mechanism (8) for controlling the charging electrode to perform single intermittent blanking, wherein the intermittent mechanism (8) comprises a blocking piece (81) and a pressing component, the blocking piece (81) for blocking the charging electrode to perform blanking is connected to the upper inner side of the blanking pipe (742), the pressing component is arranged on the guide frame (741), and the pressing component is used for pressing the charging electrode on the blocking piece (81) downwards to perform blanking.

10. The intelligent watch charging electrode pressing device according to claim 9, wherein the pressing component comprises a supporting block (821), a pressing rod (822), a second elastic piece (823), a sleeve (824), a pull rope (825) and a connecting block (826), two supporting blocks (821) are connected to the front side of the guide frame (741), the pressing rod (822) is connected to the supporting blocks (821) in a sliding mode, the pressing rod (822) is located right above the blanking pipe (742), the pressing rod (822) can downwards press a charging electrode on the blocking piece (81), the second elastic piece (823) is connected with the pressing rod (822) and the supporting blocks (821) to enable the pressing rod (822) to elastically reset upwards, the sleeve (824) is connected to the front side of the supporting block (821), the pull rope (825) is connected to the inside the sleeve (824) in a sliding mode, the connecting block (826) is connected to the mounting frame (512), and the pressing rod (822) and the connecting block (826) are connected to the pressing rod (822) in a sliding mode.