CN108666592A - Device for charging battery with carbon powder - Google Patents

Abstract

The invention discloses a device for charging carbon powder into a battery, which structurally comprises a powder guide pipe, a powder feeding machine head, a compaction device and a control machine body, wherein the powder guide pipe is connected with the powder feeding machine head above the powder guide pipe, the powder feeding machine head is connected with the control machine body at the outer side and is connected with the compaction device, the compaction device is arranged at the bottom of the powder feeding machine head and is movably connected with the control machine body, the control machine body is controlled and connected with the control machine body, and the compaction device comprises a rotating mechanism, a pushing device, a swinging device, a pushing device, an opening and closing device, a transmission mechanism and a compaction device. The invention can drive the compaction device to stagger and move to compact the carbon powder while feeding the carbon powder, and the carbon powder is tightly connected in a tandem working state, so that the manufacture is integrated and the production is convenient.

Description

Device for charging battery with carbon powder

Technical Field

The invention relates to a device for charging carbon powder into a battery, belonging to the field of devices for charging carbon powder into batteries.

Background

The zinc-manganese battery is also called an alkaline dry battery, an alkaline zinc-manganese battery and an alkaline manganese battery, and is a variety with the best performance in a zinc-manganese battery series. Is suitable for long-time use with large discharge capacity. The internal resistance of the battery is lower, so the generated current is larger than that of the common manganese battery, and the environment-friendly mercury content is only 0.025%, and the recycling is not needed. The alkaline battery is the most successful dry battery with high capacity and is one of the batteries with the highest cost performance at present; the zinc-manganese battery is a primary battery which takes manganese dioxide as a positive electrode, zinc as a negative electrode and ammonium chloride aqueous solution as main electrolyte. Commonly called dry cell.

In the prior art, the subsequent machine table is required to be tightly compacted after carbon powder is generally added, the manufacturing procedures are more complicated, the connection is not tight enough, and the use is inconvenient.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a device for charging carbon powder into a battery, which is used for solving the problems that the subsequent machine table is required to be tightly compacted after the carbon powder is generally added, the manufacturing procedures are more and more complicated, the connection is not tight enough, and the use is inconvenient.

In order to achieve the purpose, the invention is realized by the following technical scheme: a device for charging battery carbon powder comprises a powder guide pipe, a powder feeding machine head, a compacting device and a control machine body;

the powder guide pipe is connected with the powder feeding machine head above, the powder feeding machine head is provided with a connection control machine body outside and is connected with the compacting device, the compacting device is arranged at the bottom of the powder feeding machine head and is movably connected with the powder feeding machine head, and the control machine body is connected to the control machine body in a control mode;

the compacting device comprises a rotating mechanism, a pushing device, a swinging device, a pushing device, an opening and closing device, a transmission mechanism and a compacting device, wherein the rotating mechanism is connected with the powder feeding machine head in a pushing mode and arranged in the middle of the compacting device, the pushing device is connected with the rotating mechanism in a rotating mode, the swinging device is installed on the side wall of the compacting device and pushed by the pushing device, the pushing device is connected with the swinging device on the opening and closing device and movably connected with the opening and closing device, the opening and closing device is connected with the pushing device below the rotating mechanism, the transmission mechanism is connected with the left side through a belt of the rotating mechanism, and the compacting device is connected with external gravity through the transmission mechanism.

Further, slewing mechanism is including connecting round pin, stopper, rotation wheel, fixed knot, driving belt, cooperation belt pulley, connecting rod, it runs through the connecting rod in powder feeding aircraft nose and fixed connection to connect the round pin, the stopper weld in the connecting rod top and with powder feeding aircraft nose lift connection, rotate the wheel and install in compaction device middle part and with connecting rod swing joint, fixed knot is fixed in rotating on the wheel and is connected with the connecting rod, driving belt cover is located and is rotated between wheel, the cooperation belt pulley and the belt connection, the cooperation belt pulley passes through driving belt and rotates the wheel synchronous rotation, the connecting rod through connect the round pin with send powder aircraft nose lift connection and with rotate the wheel and promote to be connected.

Further, thrust unit includes dwang, flap, catch bar, tooth row, guide holder, stay cord, the dwang is connected and is rotated on the rotation wheel and synchronous, the flap is located and is swing joint between dwang and the catch bar, the catch bar is connected the flap and is promoted on the tooth row and be connected, the tooth row is installed on the catch bar right side and is promoted with the pendulous device and be connected, the guide holder is installed and is connected with the compaction device top in the tooth row upper right side, the stay cord is connected the tooth row and is connected on guide holder, pendulous device and pulling force.

Furthermore, the swinging device comprises a movable gear, a swinging rod, a hinge seat, a pulling rod and an extrusion spring, wherein the movable gear is connected with the swinging rod in a swinging mode through a tooth row, the swinging rod is connected with the movable gear on the hinge seat and is connected with the hinge, the hinge seat is connected with the swinging rod on the side wall of the compaction device, the pulling rod is connected between the swinging rod and the pushing device and is connected with the pushing device in a pulling mode, and the extrusion spring is welded at the bottom of the pulling rod and is fixedly connected with the side wall of the compaction device.

Furthermore, the pushing device comprises a connecting rod, a connecting frame, a limiting block and a telescopic spring, the connecting rod is connected with a pulling rod and the connecting frame in a pushing mode, the connecting frame is connected with the opening and closing device in a pushing mode through the connecting rod, the limiting block is fixedly connected with the connecting frame and is arranged on the right side of the connecting frame in a elastic mode and connected with the telescopic spring in an elastic mode, and the telescopic spring is connected with the limiting block on the side wall of the compacting device.

Further, the opening and closing device comprises a connecting plate, rolling wheels, an opening plate and a fixing rod, the connecting plate is arranged on the left lower side of the connecting frame and connected with the fixing rod, the rolling wheels are arranged at the bottom of the opening plate and connected with the bottom of the compacting device in a rolling mode, the opening plate moves synchronously with the connecting plate through the fixing rod, and the fixing rod is fixed between the connecting plate and the opening plate.

Further, drive mechanism includes mount, second belt pulley, extension rod, second driving belt, the second belt pulley is connected at the compaction device top to the mount, the second belt pulley passes through second driving belt and cooperates the synchronous rotation of belt pulley, the extension rod is fixed in second belt pulley upper surface and promotes with the compaction device to be connected, second driving belt cover is located on second belt pulley, the cooperation belt pulley.

Furthermore, the compaction device includes support frame, expanding spring, swash plate, swinging arms, draws zipper strip, gravity compaction ball, spacing groove, the swinging arms is connected to the support frame on the compaction device lateral wall, expanding spring connects the swinging arms bottom on the compaction device lateral wall, the swash plate is fixed in the swinging arms bottom and inlays and be equipped with the spacing groove, the swinging arms passes through the extension rod and is connected with the support frame swing, draw zipper strip and locate between swinging arms, the gravity compaction ball and the pulling is connected, the gravity compaction ball is connected with outside gravity through drawing zipper strip, the spacing groove inlays and locates the swash plate upper right side and is connected with the gravity compaction ball.

Advantageous effects

The invention relates to a device for putting battery carbon powder, when a powder feeding machine head descends to feed powder by controlling a machine body, a connecting round pin connected with a pushing mechanism in the powder feeding machine head drives a connecting rod to descend and push a rotating wheel, a rotating rod connected with the rotating wheel synchronously rotates and pushes a pushing rod to the right to enable a tooth row and a movable gear to rotate, the movable gear is hinged with a hinge seat through the swinging rod to enable the movable gear and the swinging rod to swing and be mutually vertical to the hinge seat, when the swinging rod is vertical, a pulling rod is pulled to inwards extrude with an extrusion spring and enable a connecting frame to synchronously move through a connecting rod, because an opening plate is connected with a connecting plate and is mutually parallel, when the connecting frame moves, the connecting plate drives the opening plate to synchronously move and open a notch, the matching belt wheel is synchronously rotated on the rotating wheel by the transmission belt, the second belt wheel is rotated by the second transmission belt through the matching belt wheel, the extension rod connected to the second belt wheel pushes the swinging rod when the second belt wheel rotates, the swinging rod is connected with the support frame in a swinging mode leftwards, and the bottom of the second belt wheel pushes the gravity compaction ball rightwards when the swinging rod swings, so that the zipper strips connected between the swinging rod and the gravity compaction ball move rightwards through the gravity compaction ball and are compacted with the top of an external carbon core.

The device for charging the battery with the carbon powder can drive the compaction device to stagger and move to compact the carbon powder while charging the carbon powder, and the carbon powder is tightly connected in a tandem working state, so that the device is integrated in manufacturing and convenient to produce.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural diagram of a device for loading battery with toner according to the present invention.

Fig. 2 is a schematic plan view of the compacting apparatus of the present invention.

Fig. 3 is a schematic view of the working state of the compacting apparatus according to the present invention.

Fig. 4 is a schematic illustration of a disassembled compaction device component according to the present invention.

In the figure: the device comprises a powder guide tube-1, a powder feeding head-2, a compacting device-3, a control machine body-4, a rotating mechanism-30, a pushing device-31, a swinging device-32, a pushing device-33, an opening and closing device-34, a transmission mechanism-35, a compacting device-36, a connecting round pin-3001, a limiting block-3002, a rotating wheel-3003, a fixed buckle-3004, a transmission belt-3005, a matching belt pulley-3006, a connecting rod-3007, a rotating rod-3101, a hinge plate-3102, a pushing rod-3103, a tooth row-3104, a guide seat-3105, a pull rope-3106, a movable gear-3201, a swinging rod-3202, a hinge seat-3203, a pulling rod-3204, an extrusion spring-3205, a connecting rod-3301, a connecting frame-3302, a limiting block-3303, a telescopic spring-3304, a connecting plate-3401, a rolling wheel-3402, a open plate-3403, a fixed rod-3404, a fixed rod-3501, a second fixed frame-3502, a second belt leather-3603, a sliding rod-3604, a sliding ball-3605, a sliding ball-supporting frame, a sliding ball-3604, a sliding ball-3606, a sliding ball-supporting frame, a sliding ball supporting frame, and a sliding ball supporting frame.

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.

Examples

Referring to fig. 1-4, the present invention provides a device for charging battery with carbon powder, which comprises a powder guide tube 1, a powder feeding head 2, a compacting device 3, and a control body 4;

the powder guide pipe 1 is connected with the powder feeding machine head 2 above, the powder feeding machine head 2 is connected with the control machine body 4 at the outer side and is connected with the compacting device 3, the compacting device 3 is arranged at the bottom of the powder feeding machine head 2 and is movably connected with the powder feeding machine head, and the control machine body 4 is connected to the control machine body 4 in a control mode;

the compacting device 3 comprises a rotating mechanism 30, a pushing device 31, a swinging device 32, a pushing device 33, an opening and closing device 34, a transmission mechanism 35 and a compacting device 36, the rotating mechanism 30 is connected with the powder feeding machine head 2 in a pushing manner and is arranged in the middle of the compacting device 3, the pushing device 31 is connected with the rotating mechanism 30 in a rotating manner, the swinging device 32 is arranged on the side wall of the compacting device 3 and is pushed by the pushing device 31, the pushing device 33 is connected with the swinging device 32 on the opening and closing device 34 and is movably connected with the opening and closing device 34, the opening and closing device 34 is connected with the pushing device 33 below the rotating mechanism 30, the transmission mechanism 35 is connected with the rotating mechanism 30 through a belt on the left side, the compacting device 36 is connected with external gravity through the transmission mechanism 35, the rotating mechanism 30 comprises a connecting round pin 3001, a limiting block 3002, a rotating wheel 3003, a fixing buckle 3004, a transmission belt 3005, a matching belt 3006 and a connecting rod 3007, the connecting round pin 3001 penetrates through the connecting rod 3007 to be fixedly connected with the powder feeding machine head 2, the limiting block 3002 is welded on the top of the connecting rod 3007 and is connected with the powder feeding machine head 2 in a lifting manner, the rotating wheel 3003 is installed in the middle of the compacting device 3 and is movably connected with the connecting rod 3007, the fixing buckle 3004 is fixed on the rotating wheel 3003 and is connected with the connecting rod 3007, the transmission belt 3005 is sleeved between the rotating wheel 3003 and the matching belt pulley 3006 and is in belt connection, the matching belt pulley 3006 rotates synchronously with the rotating wheel 3003 through the transmission belt 3005, the connecting rod 3007 is connected with the powder feeding machine head 2 in a lifting manner through the connecting round pin 3001 and is connected with the rotating wheel 3003 in a pushing manner, the pushing device 31 comprises a rotating rod 3101, a hinge plate 3102, a pushing rod 3103, a tooth row 3104, a guide seat 3105 and a pulling rope 3106, the rotating rod 3101 is connected with the rotating wheel 3003 and rotates synchronously, the hinge plate 3102 is arranged between the rotating rod 3101 and the pushing rod 3103 and is movably connected, the pushing rod 3103 is connected with the hinge plate 3102 on the tooth row 3104 and is connected in a pushing way, the tooth row 3104 is arranged on the right side of the pushing rod 3103 and is connected with the swinging device 32 in a pushing way, the guide seat 3105 is arranged on the upper right side of the tooth row 3104 and is connected with the top of the compacting device 3, the pulling rope 3106 is connected with the tooth row 3104 on the guide seat 3105 and the swinging device 32 and is connected in a pulling way, the swinging device 32 comprises a movable gear 3201, a swinging rod 3202, a hinge seat 3203, a pulling rod 3204 and an extrusion spring 3205, the movable gear 3201 is connected with the swinging rod 3202 in a swinging way through the tooth row 3104, the swinging rod 3202 is connected with the movable gear 3201 on the hinge seat 3203 in a hinged way, the hinge seat 3203 is connected with the swinging rod 3202 on the side wall of the compacting device 3, the pulling rod 3204 is connected between the swinging rod 3202 and the pushing device 33 in a pulling way, the extrusion spring 3205 is welded at the bottom of the pulling rod 3204 and fixedly connected with the side wall of the compacting device 3, the pushing device 33 comprises a connecting rod 3301, a connecting frame 3302, a limiting block 3303 and a telescopic spring 3304, the connecting rod 3301 is connected with the pulling rod 3204 and the connecting frame 3302 and is connected in a pushing manner, the connecting frame 3302 is connected with the opening and closing device 34 in a pushing manner through the connecting rod 3301, the limiting block 3303 is fixedly connected with the connecting frame 3302 and is arranged at the right side and is connected with the telescopic spring 3304 in an elastic manner, the telescopic spring 3304 is connected with the limiting block 3303 on the side wall of the compacting device 3, the opening and closing device 34 comprises a connecting plate 3401, a rolling wheel 3402, an opening plate 3403 and a fixing rod 3404, the connecting plate 3401 is arranged at the left lower side of the connecting frame 3302 and is connected with the fixing rod 3404, the rolling wheel 3402 is arranged at the bottom of the opening plate 3403 and is connected with the bottom of the compacting device 3 in a rolling manner, the opening plate 3403 synchronously moves with the connecting plate 3401 through the fixing rod 3404, the fixing rod 3404 is fixed between the connecting plate 3401 and the opening plate 3403, the transmission mechanism 35 comprises a fixing frame 3501, a second belt pulley 3502, an extension rod 3503 and a second transmission belt 3504, the fixing frame 3501 is connected with the second belt pulley 3502 at the top of the compacting device 3, the second belt pulley 3502 synchronously rotates with the matching belt pulley 3006 through the second transmission belt 3504, the extension rod 3503 is fixed on the upper surface of the second belt pulley 3502 and is in pushing connection with the compacting device 36, the second transmission belt 3504 is sleeved on the second belt pulley 3502 and the matching belt pulley 3006, the compacting device 36 comprises a support frame 3601, an extension spring 3602, an inclined plate 3603, a swinging rod 3604, a zipper strip 3605, a gravity compacting ball 3606 and a limiting groove 3607, the support frame 3601 is connected with the swinging rod 3604 on the side wall of the compacting device 3, the inclined plate 3603 is fixed at the bottom of the swinging rod 3604 and is provided with an embedded groove 3607, the swinging rod 3603 is connected with the swinging rod 3603 through the gravity compacting device 3606, and is connected with the swinging rod 3606, and connected with the swinging rod 3603 through the gravity compacting device 3603, and the swinging rod 3603, and is connected with the swinging rod 3606, and connected with the swinging rod 3603 through the swinging rod 3603, and the swinging rod 3603.

The invention provides a device for putting a battery into carbon powder, which has the working principle that: when the powder feeding head 2 is lowered into powder by controlling the body 4, the connecting round pin 3001 connected to the pushing mechanism inside the powder feeding head 2 causes the connecting rod 3007 to descend and push the turning wheel 3003, the turning rod 3101 connected to the turning wheel 3003 rotates synchronously and causes the pushing rod 3103 to push right to cause the row of teeth 3104 and the moving gear 3201 to rotate, the moving gear 3201 and the turning rod 3202 swing and are perpendicular to the hinge block 3203 due to the hinge connection of the moving gear 3201 and the hinge block 3203 via the swinging rod 3202, the swinging rod 3202 pulls the pulling rod 3204 to press inwardly with the pressing spring 3205 and causes the connecting frame 3302 to move synchronously via the connecting rod 3301 when the swinging rod 3202 is perpendicular, the engaging plate 3401 causes the engaging plate 3403 to move synchronously and open the notch when the connecting frame 3302 moves, the belt 3005 causes the engaging pulley 3006 to rotate synchronously with the turning wheel 3003, the second driving belt 3504 enables the second belt pulley 3502 to rotate through matching with the belt pulley 3006, when the second belt pulley 3502 rotates, the extension rod 3503 connected to the second belt pulley 3502 is pushed by the swinging rod 3604, the swinging rod 3604 is connected with the support frame 3601 in a swinging mode leftwards, and when the second belt pulley 3502 swings, the gravity compaction ball 3606 is pushed rightwards by the bottom, the zipper strip 3605 connected between the swinging rod 3604 and the gravity compaction ball 3606 is enabled to move rightwards through the gravity compaction ball 3606 and is compacted with the top of an external carbon core, when the powder feeder head 2 ascends, the limiting block 3002 is connected with the powder feeder head 2 in a lifting mode in a rail mode, the internal structure moves reversely, the pull rope 3106 fixed between the tooth row 3104 and the movable gear 3201 pulls the movable gear 3201 leftwards to enable all parts to recover, the connection is tight, the process is simple and convenient to use, and facilitates integrated production and management.

The connecting round pin 3001 is a rod made of iron, round-head iron blocks are welded at two ends of the connecting round pin, so that the connecting round pin can achieve the effect of movable connection and is convenient to use.

The invention solves the problems that the subsequent machine table is required to be tightly compacted after the carbon powder is added, the manufacturing process is more complicated, the connection is not tight enough, and the use is inconvenient.

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 (8)

1. The utility model provides a battery goes into carbon dust device, its structure includes powder pipe (1), send whitewashed aircraft nose (2), compaction device (3), control organism (4), its characterized in that:

the powder guide pipe (1) is connected with the powder feeding machine head (2) above, the powder feeding machine head (2) is connected with the control machine body (4) at the outer side and is connected with the compacting device (3), the compacting device (3) is arranged at the bottom of the powder feeding machine head (2) and is movably connected with the powder feeding machine head, and the control machine body (4) is connected to the control machine body (4) in a control mode;

the compacting device (3) comprises a rotating mechanism (30), a pushing device (31), a swinging device (32), a pushing device (33), an opening and closing device (34), a transmission mechanism (35) and a compacting device (36), wherein the rotating mechanism (30) is connected with the powder feeding machine head (2) in a pushing mode and arranged in the middle of the compacting device (3), the pushing device (31) is connected with the rotating mechanism (30) in a rotating mode, the swinging device (32) is installed on the side wall of the compacting device (3) and pushed by the pushing device (31), the pushing device (33) is connected with the swinging device (32) on the opening and closing device (34) and movably connected with the opening and closing device (34), the opening and closing device (34) is connected with the pushing device (33) below the rotating mechanism (30), the transmission mechanism (35) and the rotating mechanism (30) are connected to the left side through a belt, and the compacting device (36) is connected with external gravity through the transmission mechanism (35).

2. A battery toner loading device according to claim 1, wherein: slewing mechanism (30) are including connecting round pin (3001), stopper (3002), rotate round pin (3003), fixed knot (3004), driving belt (3005), cooperation belt pulley (3006), connecting rod (3007), connect round pin (3001) run through connecting rod (3007) in sending powder aircraft nose (2) and fixed connection, stopper (3002) weld in connecting rod (3007) top and with send powder aircraft nose (2) lift and be connected, rotate round pin (3003) install in compaction device (3) middle part and with connecting rod (3007) swing joint, fixed knot (3004) are fixed in and rotate round pin (3003) on and are connected with connecting rod (3007), driving belt (3005) cover is in rotating round pin (3003), cooperation belt pulley (3006) between and the belt connection, cooperation belt pulley (3006) rotate round pin (3003) with rotating round pin (3003) synchronization through driving belt (3005), connecting rod (3007) with send powder aircraft nose (3002) to promote to be connected with rotation round pin (3003) lift and be connected.

3. A battery toner loading device according to claim 1, wherein: the pushing device (31) comprises a rotating rod (3101), a hinge plate (3102), a pushing rod (3103), a gear row (3104), a guide seat (3105) and a pull rope (3106), wherein the rotating rod (3101) is connected to the rotating wheel (3003) and synchronously rotates, the hinge plate (3102) is arranged between the rotating rod (3101) and the pushing rod (3103) and movably connected, the pushing rod (3103) is connected with the hinge plate (3102) on the gear row (3104) and is in pushing connection, the gear row (3104) is arranged on the right side of the pushing rod (3103) and is in pushing connection with a swinging device (32), the guide seat (3105) is arranged on the upper right side of the gear row (3104) and is connected with the top of the compacting device (3), and the pull rope (3106) is connected with the gear row (3104) on the guide seat (3105) and the swinging device (32) and is in pulling connection.

4. A battery toner loading device according to claim 1 or 3, wherein: swing device (32) include loose gear (3201), swinging arms (3202), hinge seat (3203), pulling pole (3204), extrusion spring (3205), loose gear (3201) is connected with swinging arms (3202) swing through tooth row (3104), swinging arms (3202) are connected loose gear (3201) and hinged joint on hinge seat (3203), hinge seat (3203) are connected swinging arms (3202) on compaction device (3) lateral wall, pulling pole (3204) are connected between swinging arms (3202) and pusher jack (33) and are connected with pulling force, extrusion spring (3205) weld in pulling pole (3204) bottom and with compaction device (3) lateral wall fixed connection.

5. A device for charging a battery with carbon powder as claimed in claim 1, wherein: pusher jack (33) is including linking pole (3301), link span (3302), stopper (3303), expanding spring (3304), link pole (3204) and link span (3302) are connected and the promotion is connected in linking pole (3301), link span (3302) promote with opening and shutting device (34) through linking pole (3301) and are connected, stopper (3303) and link span (3302) fixed connection locate the right side and be connected with expanding spring (3304) elasticity, expanding spring (3304) are connected stopper (3303) on compaction device (3) lateral wall.

6. A battery toner loading device according to claim 1 or 5, wherein: the opening and closing device (34) comprises connecting plates (3401), rolling wheels (3402), opening plates (3403) and fixing rods (3404), the connecting frame (3302) left side below is arranged on the connecting plates (3401) and is connected with the fixing rods (3404), the rolling wheels (3402) are arranged at the bottoms of the opening plates (3403) and are in rolling connection with the bottoms of the compacting devices (3), the opening plates (3403) move synchronously with the connecting plates (3401) through the fixing rods (3404), and the fixing rods (3404) are fixed between the connecting plates (3401) and the opening plates (3403).

7. A device for charging a battery with carbon powder as claimed in claim 1, wherein: the transmission mechanism (35) comprises a fixing frame (3501), a second belt pulley (3502), an extension rod (3503) and a second transmission belt (3504), the fixing frame (3501) is connected with the second belt pulley (3502) at the top of the compacting device (3), the second belt pulley (3502) synchronously rotates with the matching belt pulley (3006) through the second transmission belt (3504), the extension rod (3503) is fixed on the upper surface of the second belt pulley (3502) and is in pushing connection with the compacting device (36), and the second transmission belt (3504) is sleeved on the second belt pulley (3502) and the matching belt pulley (3006).

8. A battery toner loading device according to claim 1 or 7, wherein: the compaction device (36) comprises a support frame (3601), a telescopic spring (3602), an inclined plate (3603), a swinging rod (3604), a zipper strip (3605), a gravity compaction ball (3606) and a limiting groove (3607), wherein the support frame (3601) is connected with the swinging rod (3604) on the side wall of the compaction device (3), the telescopic spring (3602) is connected with the bottom of the swinging rod (3604) on the side wall of the compaction device (3), the inclined plate (3603) is fixed at the bottom of the swinging rod (3604) and embedded with the limiting groove (3607), the swinging rod (3604) is connected with the support frame (3601) in a swinging mode through an extension rod (3503), the zipper strip (3605) is arranged between the swinging rod (3604) and the gravity compaction ball (3606) and connected in a pulling mode, the gravity compaction ball (3606) is connected with external gravity through the zipper strip (3605), and the limiting groove (3607) is embedded at the upper right side of the inclined plate (3603) and connected with the gravity compaction ball (3606).