CN111660867B - Novel power battery device capable of automatically replacing standby battery - Google Patents

Abstract

The invention discloses a novel power battery device capable of automatically replacing a spare battery, which comprises a main body, wherein a replacing cavity is arranged in the main body, a replacing component is arranged in the replacing cavity, a driving cavity is arranged at the rear side of the replacing cavity, a driving component is arranged in the driving cavity, the front side of the replacing cavity is communicated with an electricity connecting cavity, an electricity connecting component is arranged in the electricity connecting cavity, the replacing component comprises a driving chain wheel shaft which is rotatably arranged on the rear end wall of the replacing cavity and extends backwards to the driving cavity, a driving chain wheel fixedly connected with the driving chain wheel shaft is arranged in the replacing cavity, the device transports the battery into the electricity connecting part or transports the battery from the electricity connecting part to the upper side through the replacing component, the battery is convenient to maintain or charge the battery, two batteries can be placed in the device, the device can run for a long distance, and the battery does not need to be manually, the labor is saved.

Description

Novel power battery device capable of automatically replacing standby battery

Technical Field

The invention relates to the technical field of novel power batteries, in particular to a novel power battery device capable of automatically replacing a standby battery.

Background

The power battery is a power source for providing power source for the tool, and is a storage battery for providing power for electric automobiles, electric trains, electric bicycles and golf carts. Compared with a common gasoline automobile, the electric automobile is more environment-friendly and lower in price, more and more people select to purchase the electric automobile at the present stage, but the electric automobile can only run after being charged for a long time, and cannot run for a long distance, the trip is influenced, the battery is manually moved when being replaced, the labor is wasted, and the plug is manually pulled out and inserted during charging, so that the labor is consumed.

Disclosure of Invention

Aiming at the defects of the technology, the invention provides a novel power battery device capable of automatically replacing a standby battery, which can overcome the defects.

The invention relates to a novel power battery device capable of automatically replacing a standby battery, which comprises a main body, wherein a replacing cavity is arranged in the main body, a replacing component is arranged in the replacing cavity, a driving cavity is arranged at the rear side of the replacing cavity, a driving component is arranged in the driving cavity, the front side of the replacing cavity is communicated with an electricity connecting cavity, an electricity connecting component is arranged in the electricity connecting cavity, the replacing component comprises a driving sprocket shaft which is rotatably arranged on the rear end wall of the replacing cavity and extends backwards to the driving cavity, a driving sprocket fixedly connected with the driving sprocket shaft is arranged in the replacing cavity, a driven sprocket shaft positioned on the upper side of the driving sprocket shaft is rotatably arranged on the rear end wall of the replacing cavity, a driven sprocket connected with the driving sprocket through a chain is fixedly arranged on the driven sprocket shaft, a replacing sliding block with five replacing supporting rods at the front side is fixedly arranged on one point of the front side of, the upper end wall and the lower end wall of the replacing cavity are fixedly provided with sliding rods positioned at the left side and the right side of the driven chain wheel shaft, the sliding rods at the left side and the right side are provided with limit sliding blocks with limit sliding grooves matched with the change sliding blocks in a sliding manner, the left end wall of the replacing cavity is fixedly provided with a spare battery panel, the right side of the spare battery panel is fixedly provided with an electrifying support plate with the rear side capable of being matched with the change supporting rod, the right end wall of the replacing cavity is fixedly provided with a feeding support plate positioned on the electrifying support plate and the spare battery panel, the left side of the feeding support plate is fixedly provided with a replacing support plate with the rear side capable of being matched with the change supporting rod, the spare battery panel and the left side and the right side of the electrifying support plate are symmetrically provided, the left side and the right side of the replacing supporting plate and the feeding supporting plate are symmetrically provided with the same pushing cavities with the replacing supporting plate and the middle of the feeding supporting plate as symmetry axes, and pushing assemblies are arranged in the pushing cavities.

Preferably, the driving assembly comprises a driving motor fixedly connected with the left end wall of the driving cavity, the right side of the driving motor is in power connection with a driving shaft, the left side of the driving shaft is fixedly provided with a face gear, a spline shaft connected with the driving sprocket shaft through a spline sleeve is arranged in the driving cavity, the spline shaft is fixedly connected with a driving reciprocating gear capable of being meshed with the face gear and a driving transmission gear positioned on the lower side of the driving reciprocating gear, the right side of the driving cavity is provided with a dovetail sliding groove, a dovetail sliding block connected with the spline shaft through a bearing is arranged in the dovetail sliding groove in a sliding manner, the upper side and the lower side of the dovetail sliding groove are respectively and fixedly provided with a discharging electromagnet and a feeding electromagnet, the right side of the dovetail sliding block is provided with an iron block matched with the discharging electromagnet and the feeding electromagnet, and the upper end wall of, and a transmission assembly is also arranged in the driving cavity.

Preferably, the pushing assembly comprises a transmission cavity communicated with the front side of the driving cavity, the rear end wall of the pushing cavity is rotatably provided with a pushing rotating shaft extending backwards to the transmission cavity, a driving connecting rod fixedly connected with the pushing rotating shaft is arranged in the pushing cavity, the other end of the driving connecting rod is hinged with a driven connecting rod, the other side of the driven connecting rod is hinged with a pushing connecting rod, the other side of the pushing connecting rod is fixedly provided with a pushing plate facing the symmetric shaft, the front end wall of the pushing cavity is provided with a pushing plate sliding groove, a pushing plate sliding block fixedly connected with the pushing plate is arranged in the pushing plate sliding groove in a sliding manner, two left belt pulleys fixedly connected with the pushing rotating shaft are arranged in the transmission cavity, the two left belt pulleys are connected through a left belt, and two right belt pulleys fixedly connected with the pushing rotating shaft are arranged in the, and the two right belt pulleys are connected through a right belt.

Preferably, drive assembly include with drive chamber lower extreme wall rotate be located of installation drive sprocket axle left ejection of compact transmission shaft, fixed mounting on the ejection of compact transmission shaft can with driven discharging gear of drive gear meshing and be located the initiative ejection of compact belt pulley of driven discharging gear downside, drive chamber lower extreme wall rotates to be installed and is located the feeding transmission shaft on drive sprocket axle right side, feeding transmission shaft is last fixed mounting have can with driven feeding gear of drive gear meshing and be located the initiative feeding belt pulley of driven feeding gear downside, be equipped with and left downside in the transmission intracavity promote being located of axis of rotation fixed connection left side belt pulley front side and with the driven discharging belt pulley that initiative ejection of compact belt pulley passes through ejection of compact belt and is connected, be equipped with and right downside in the transmission intracavity promote being located of axis of rotation fixed connection right side belt pulley front side and with initiative feeding The belt pulley is connected with a driven feeding belt pulley through a feeding belt.

Preferably, the power connection assembly comprises a battery, a power connection port is arranged at the center of the front side of the battery, fixing grooves symmetrically arranged by taking the power connection port as a symmetry axis are arranged at the front side of the battery, the front end wall of the power receiving cavity is fixedly provided with a power receiving motor, the rear side of the power receiving motor is in power connection with a screw rod, the screw rod is provided with a sliding box which is in sliding fit with the power connection cavity through threads, the rear side of the sliding box is communicated with the power connection cavity, the front end wall of the sliding box is rotatably provided with an electric connection rotating shaft, an electric connection gear and a driven bevel gear positioned at the rear side of the electric connection gear are fixedly arranged on the electric connection rotating shaft, the left end wall of the sliding box is rotatably provided with a sliding rotating shaft, the sliding rotating shaft is fixedly provided with a driving bevel gear meshed with the driven bevel gear and a sliding gear positioned on the left side of the driving bevel gear, and the rear end wall of the electricity receiving cavity is fixedly provided with a sliding rack meshed with the sliding gear.

Preferably, connect the electric subassembly still include with slide box upper end wall fixed connection's electricity socket, slide box upper end wall be equipped with the electricity socket is two fixed block sliding tray of symmetry axis, slide box lower extreme end wall slip be equipped with connect the electricity axis of rotation as two of symmetry axis through fixed block sliding tray upwards extend and with fixed slot complex fixed sliding block, the left side fixed sliding block front side fixed mounting have with connect the fixed rack that the meshing of electric gear upside, the right side fixed sliding block front side fixed mounting have with connect the fixed rack that the meshing of electric gear downside.

The beneficial effects are that: the device simple structure, convenient operation, the device are at the during operation, through changing the subassembly with the battery transportation in connect electric department or with the battery from connecting electric department and transporting to the upside, conveniently maintain the battery or charge for the battery, can place two batteries in the device, can go long-distance, the trip is convenient, and connects the automatic electricity of electric subassembly when changing the battery to connect, does not need the manual work to connect the outage or carry the battery, uses manpower sparingly, and is safer.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic diagram of the structure A-A of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a battery power connection assembly shown in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of the structure B-B in FIG. 3 according to an embodiment of the present invention;

fig. 5 is an enlarged schematic view of the structure at C in fig. 1 according to the embodiment of the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-5, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The novel power battery device capable of automatically replacing the standby battery comprises a main body 10, wherein a replacing cavity 13 is arranged in the main body 10, a replacing component is arranged in the replacing cavity 13, a driving cavity 16 is arranged on the rear side of the replacing cavity 13, a driving component is arranged in the driving cavity 16, an electricity connecting cavity 27 is communicated with the front side of the replacing cavity 13, an electricity connecting component is arranged in the electricity connecting cavity 27, the replacing component comprises a driving sprocket shaft 41 which is rotatably arranged on the rear end wall of the replacing cavity 13 and extends backwards to the driving cavity 16, a driving sprocket 15 fixedly connected with the driving sprocket shaft 41 is arranged in the replacing cavity 13, a driven sprocket shaft 46 positioned on the upper side of the driving sprocket shaft 41 is rotatably arranged on the rear end wall of the replacing cavity 13, a driven sprocket 45 connected with the driving sprocket 15 through a chain 44 is fixedly arranged on the driven sprocket shaft 46, a little front side fixed mounting has the front side to contain five change sliding blocks 47 of changing bracing piece 24 on the chain 44, change about the chamber 13 end wall fixed mounting have be located the slide bar 22 of driven sprocket shaft 46 left and right sides, the left and right sides slide on the slide bar 22 be equipped with contain with change the spacing sliding block 23 of the spacing sliding tray 83 of slide block 47 complex, change chamber 13 left end wall fixed mounting have reserve panel 29, reserve panel 29 right side fixed mounting have the rear side can with change the circular telegram backup pad 26 of bracing piece 24 complex fixed bracing piece 25, change chamber 13 right end wall fixed mounting have be located circular telegram backup pad 26, the material loading backup pad 42 of reserve panel 29, material loading backup pad 42 left side fixed mounting have the rear side contain can with change backup pad 43 of changing bracing piece 24 complex fixed bracing piece 25, the left and right sides of the standby battery board 29 and the electrified supporting board 26 are symmetrically provided with pushing cavities 34 which take the middle of the standby battery board 29 and the electrified supporting board 26 as a symmetrical axis, the left and right sides of the replacing support plate 43 and the feeding support plate 42 are symmetrically provided with the same pushing cavity 34 which takes the middle of the replacing support plate 43 and the feeding support plate 42 as a symmetry axis, a pushing component is arranged in the pushing cavity 34, the driving sprocket shaft 41 drives the driving sprocket 15 and the driven sprocket 45 to rotate when rotating, thereby driving the chain 44 to move, when the chain 44 moves clockwise, the replacement slide block 47 and the replacement support rod 24 transport the battery with the exhausted upper side of the electrified support plate 26 to the upper side of the replacement support plate 43, when the chain 44 moves counterclockwise, the replacement slide 47 and the replacement support rod 24 transport the battery fully charged on the upper side of the replacement support plate 43 to the upper side of the energization support plate 26.

Beneficially, the driving assembly includes a driving motor 14 fixedly connected with the left end wall of the driving cavity 16, the right side of the driving motor 14 is power connected with a driving shaft 64, the left side of the driving shaft 64 is fixedly provided with a face gear 65, a spline shaft 79 connected with the driving chain wheel shaft 41 through a spline sleeve 77 is arranged in the driving cavity 16, a driving reciprocating gear 66 capable of being meshed with the face gear 65 and a driving transmission gear 67 positioned on the lower side of the driving reciprocating gear 66 are fixedly connected on the spline shaft 79, a dovetail sliding groove 72 is arranged on the right side of the driving cavity 16, a dovetail sliding block 68 connected with the spline shaft 79 through a bearing is arranged in the dovetail sliding groove 72 in a sliding mode, an discharging electromagnet 69 and a feeding electromagnet 73 are respectively and fixedly arranged on the upper side and the lower side of the dovetail sliding groove 72, and a discharging electromagnet 69, a, Feeding electro-magnet 73 complex iron plate 71, forked tail sliding block 68 upside with forked tail sliding tray 72 upper end wall passes through reset spring 70 and connects, still be equipped with drive assembly in the drive chamber 16, when ejection of compact electro-magnet 69 circular telegram drive reciprocating gear 66 with the meshing of face gear 65 upside drives drive sprocket 15 clockwise turning, when feeding electro-magnet 73 circular telegram drive reciprocating gear 66 with the meshing of face gear 65 downside drives drive sprocket 15 anticlockwise rotation.

Beneficially, the pushing assembly includes a transmission cavity 11 communicated with the front side of the driving cavity 16, a pushing rotating shaft 37 extending backwards to the transmission cavity 11 is rotatably installed on the rear end wall of the pushing cavity 34, a driving connecting rod 36 fixedly connected with the pushing rotating shaft 37 is installed in the pushing cavity 34, a driven connecting rod 35 is hinged on the other end of the driving connecting rod 36, a pushing connecting rod 33 is hinged on the other side of the driven connecting rod 35, a pushing plate 30 facing the symmetry axis is fixedly installed on the other side of the pushing connecting rod 33, a pushing plate sliding groove 31 is installed on the front end wall of the pushing cavity 34, a pushing plate sliding block 32 fixedly connected with the pushing plate 30 is slidably installed in the pushing plate sliding groove 31, a left belt pulley 39 fixedly connected with two pushing rotating shafts 37 on the left side is installed in the transmission cavity 11, and the two left belt pulleys 39 are connected through a left, be equipped with in the transmission chamber 11 with the right side two promote axis of rotation 37 fixed connection's right belt pulley 19, two right side belt pulley 19 connects through right belt 20, left side belt pulley 39 drives the left side two when promoting axis of rotation 37 and rotating, the left side two the slurcam 30 slides right, will reserve panel 29 the side battery pushes away to on the change backup pad 43 the circular telegram backup pad 26 material loading backup pad 42 upside, right side belt pulley 19 drives the right side two when promoting axis of rotation 37 and rotating, the right side two slurcam 30 slides left, will the circular telegram backup pad 26 the side battery on the material loading backup pad 42 pushes away to reserve battery plate 29 the change backup pad 43 upside.

Beneficially, the transmission assembly includes a discharging transmission shaft 81 rotatably mounted on the lower end wall of the driving cavity 16 and located on the left side of the driving sprocket shaft 41, a driven discharging gear 82 capable of meshing with the driving transmission gear 67 and a driving discharging pulley 80 located on the lower side of the driven discharging gear 82 are fixedly mounted on the discharging transmission shaft 81, a feeding transmission shaft 76 located on the right side of the driving sprocket shaft 41 is rotatably mounted on the lower end wall of the driving cavity 16, a driven feeding gear 74 capable of meshing with the driving transmission gear 67 and a driving feeding pulley 75 located on the lower side of the driven feeding gear 74 are fixedly mounted on the feeding transmission shaft 76, a driven discharging pulley 38 located on the front side of the left pulley 39 and connected with the driving discharging pulley 80 through a discharging belt 12 and fixedly connected with the pushing rotation shaft 37 on the left lower side is arranged in the driving cavity 11, be equipped with in the transmission chamber 11 with the right downside promote being located of axis of rotation 37 fixed connection right belt pulley 19 front side and with the driven feeding belt pulley 21 that the driving feeding belt pulley 75 passes through feeding belt 17 and connects, drive reciprocating gear 66 with during the meshing of face gear 65 upside drive gear 67 with driven ejection of compact gear 82 meshes, drive reciprocating gear 66 with during the meshing of face gear 65 downside drive gear 67 with driven feeding gear 74 meshes.

Advantageously, the electric connection assembly comprises a battery 56, an electric connection port 57 is arranged in the center of the front side of the battery 56, fixing grooves 55 symmetrically arranged by taking the electric connection port 57 as a symmetry axis are arranged on the front side of the battery 56, an electric connection motor 28 is fixedly arranged on the front end wall of the electric connection chamber 27, a screw 48 is dynamically connected to the rear side of the electric connection motor 28, a sliding box 52 with a rear side in sliding fit with the electric connection chamber 27 and communicated with the electric connection chamber 27 is arranged on the screw 48 through threaded fit, an electric connection rotating shaft 50 is rotatably arranged on the front end wall of the sliding box 52, an electric connection gear 49 and a driven bevel gear 62 positioned behind the electric connection gear 49 are fixedly arranged on the electric connection rotating shaft 50, a sliding rotating shaft 58 is rotatably arranged on the left end wall of the sliding box 52, a driving bevel gear 61 engaged with the driven bevel gear 62 and a sliding gear 59 positioned on the left side of the driving bevel gear, a sliding rack 60 meshed with the sliding gear 59 is fixedly arranged on the rear end wall of the power receiving cavity 27.

Advantageously, the electrical connection assembly further comprises an electrical insertion port 54 fixedly connected to the upper end wall of the sliding box 52, the upper end wall of the sliding box 52 is provided with two fixed block sliding grooves 18 with the electrical insertion port 54 as a symmetry axis, the lower end wall of the sliding box 52 is slidably provided with two fixed sliding blocks 51 with the electrical connection rotation axis 50 as a symmetry axis, the two fixed sliding blocks 51 extend upwards through the fixed block sliding grooves 18 and are matched with the fixed grooves 55, a fixed rack 53 engaged with the upper side of the electrical connection gear 49 is fixedly installed in front of the left fixed sliding block 51, a fixed rack 53 engaged with the lower side of the electrical connection gear 49 is fixedly installed in front of the right fixed sliding block 51, the fixed sliding block 51 slides outwards gradually when the sliding box 52 slides upwards, and the fixed sliding block 51 is matched with the fixed grooves 55 to fix the battery 56 when the sliding box 52 slides to the uppermost side, the plug-in port 54 is connected to the power receiving port 57.

In the initial state, the discharging electromagnet 69 and the feeding electromagnet 73 are not electrified, the return spring 70 is in the normal stretching state, the face gear 65 is not meshed with the driving reciprocating gear 66 and the driving transmission gear 67, the driving transmission gear 67 is not meshed with the driven discharging gear 82 and the driven feeding gear 74, and the sliding box 52 is located at the lowest side.

When the operation is started, the battery is put on the replacing support plate 43 and the feeding support plate 42, the feeding electromagnet 73 is electrified to attract the iron block 71, the return spring 70 is stretched to drive the reciprocating gear 66 to be meshed with the lower side of the end face gear 65, the driving transmission gear 67 is meshed with the driven feeding gear 74, the driving motor 14 is started to drive the driving shaft 64 to rotate, thereby driving the end face gear 65 to rotate, thereby driving the driving reciprocating gear 66 to rotate, thereby driving the spline shaft 79 to rotate, thereby driving the driving sprocket shaft 41 to rotate, thereby driving the driving sprocket 15 to rotate, thereby driving the driven sprocket 45 to rotate, thereby driving the chain 44 to move counterclockwise, the replacing sliding block 47 conveys the power supply on the upper side of the feeding support plate 42 to the upper side of the powering support plate 26, meanwhile, the spline shaft 79 drives the driving transmission gear 67 to rotate, thereby driving the driven feeding, thereby driving the driving feeding belt pulley 75 to rotate, driving the driven feeding belt pulley 21 to rotate, driving the right pushing rotating shaft 37 to rotate, driving the right pushing plate 30 to slide leftwards, pushing the power supply on the upper side of the feeding supporting plate 42 to the replacing supporting plate 43, pushing the power supply on the upper side of the electrified supporting plate 26 to the standby battery plate 29, conveying the power supply on the upper side of the replacing supporting plate 43 to the upper side of the electrified supporting plate 26 again by the replacing sliding block 47, stopping the driving motor 14, powering off the feeding electromagnet 73, driving the reciprocating gear 66 to be not meshed with the end face gear 65 under the action of the reset spring 70, and not meshing the driven feeding gear 74 with the driving transmission gear 67; the power connection motor 28 is started to rotate forwardly, so as to drive the screw rod 48 to rotate, so as to drive the sliding box 52 to slide upwards, the fixed sliding block 51 slides outwards, when the sliding box 52 slides to the uppermost side, the fixed sliding block 51 is matched with the fixed groove 55 to fix the battery 56, the power insertion port 54 is communicated with the power connection port 57, when the battery is used up, the power connection motor 28 is started to rotate reversely, so as to drive the sliding box 52 to slide downwards, the fixed sliding block 51 slides inwards to be separated from the fixed groove 55, the discharging electromagnet 69 is electrified to attract the iron block 71, the reset spring 70 is compressed to drive the reciprocating gear 66 to be meshed with the upper side of the end face gear 65, the driving transmission gear 67 is meshed with the driven discharging gear 82, the driving motor 14 is started, so as to drive the driving shaft 64 to rotate, so as to drive the end face gear 65 to rotate, thereby driving the driving sprocket 15 to rotate, thereby driving the driven sprocket 45 to rotate, thereby driving the chain 44 to move clockwise, the replacement sliding block 47 transports the power on the upper side of the powered support plate 26 to the upper side of the replacement support plate 43, and simultaneously the spline shaft 79 drives the driving transmission gear 67 to rotate, thereby driving the driven discharging gear 82 to rotate, thereby driving the discharging transmission shaft 81 to rotate, thereby driving the driving discharging pulley 80 to rotate, thereby driving the driven discharging pulley 38 to rotate, thereby driving the left side pushing rotating shaft 37 to rotate, thereby driving the left side pushing plate 30 to slide rightwards, pushing the power on the upper side of the replacement support plate 43 to the powered support plate 42, pushing the power on the upper side of the standby battery panel 29 to the powered support plate 26, the driving motor 14 stops, the discharging electromagnet 69 is powered off, the reciprocating gear 66 is driven to be, the driven discharging gear 82 is not meshed with the driving transmission gear 67.

The beneficial effects are that: the device simple structure, convenient operation, the device are at the during operation, through changing the subassembly with the battery transportation in connect electric department or with the battery from connecting electric department and transporting to the upside, conveniently maintain the battery or charge for the battery, can place two batteries in the device, can go long-distance, the trip is convenient, and connects the automatic electricity of electric subassembly when changing the battery to connect, does not need the manual work to connect the outage or carry the battery, uses manpower sparingly, and is safer.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims (1)

1. The utility model provides a can automatic change backup battery's novel power battery device, includes the main part, its characterized in that: the main body is internally provided with a replacing cavity, a replacing component is arranged in the replacing cavity, the rear side of the replacing cavity is provided with a driving cavity, the driving cavity is internally provided with a driving component, the front side of the replacing cavity is communicated with an electricity receiving cavity, the electricity receiving cavity is internally provided with an electricity receiving component, the replacing component comprises a driving sprocket shaft which is rotatably installed on the rear end wall of the replacing cavity and extends backwards to the driving cavity, a driving sprocket which is fixedly connected with the driving sprocket shaft is arranged in the replacing cavity, the rear end wall of the replacing cavity is rotatably provided with a driven sprocket shaft which is positioned on the upper side of the driving sprocket shaft, a driven sprocket which is connected with the driving sprocket shaft through a chain is fixedly arranged on the driven sprocket shaft, a replacing sliding block of which the front side comprises five replacing support rods is fixedly arranged on one front side of the chain, and sliding rods which are positioned on the left side and the, the left and right sides slide on the slide bar be equipped with contain with change the spacing sliding block of the spacing sliding tray of sliding block complex, change chamber left end wall fixed mounting have reserve panel, reserve panel right side fixed mounting have the rear side contain can with change bracing piece complex fixed support bar's circular telegram backup pad, it is located to change chamber right-hand member wall fixed mounting the circular telegram backup pad spare panel's material loading backup pad, material loading backup pad left side fixed mounting have the rear side contain can with change bracing piece complex fixed support bar's change backup pad, reserve panel with circular telegram backup pad left and right sides symmetry be equipped with reserve panel the promotion chamber that is the symmetry axis in the middle of the circular telegram backup pad, change the backup pad with material loading backup pad left and right sides symmetry is equipped with change backup pad left and right sides symmetry, The middle of the feeding supporting plate is provided with the same pushing cavity with a symmetrical axis, and a pushing assembly is arranged in the pushing cavity; the driving assembly comprises a driving motor fixedly connected with the left end wall of the driving cavity, the right side of the driving motor is in power connection with a driving shaft, the left side of the driving shaft is fixedly provided with a face gear, a spline shaft connected with the driving chain wheel shaft through a spline sleeve is arranged in the driving cavity, the spline shaft is fixedly connected with a driving reciprocating gear capable of being meshed with the face gear and a driving transmission gear positioned on the lower side of the driving reciprocating gear, the right side of the driving cavity is provided with a dovetail sliding groove, a dovetail sliding block connected with the spline shaft through a bearing is arranged in the dovetail sliding groove in a sliding manner, the upper side and the lower side of the dovetail sliding groove are respectively and fixedly provided with a discharging electromagnet and a feeding electromagnet, the right side of the dovetail sliding block is provided with an iron block matched with the discharging electromagnet and the feeding electromagnet, and the upper end, a transmission assembly is also arranged in the driving cavity; the pushing assembly comprises a transmission cavity communicated with the front side of the driving cavity, the rear end wall of the pushing cavity is rotatably provided with a pushing rotating shaft which extends backwards to the transmission cavity, a driving connecting rod fixedly connected with the pushing rotating shaft is arranged in the pushing cavity, the other end of the driving connecting rod is hinged with a driven connecting rod, the other side of the driven connecting rod is hinged with a pushing connecting rod, the other side of the pushing connecting rod is fixedly provided with a pushing plate facing the symmetrical shaft, the front end wall of the pushing cavity is provided with a pushing plate sliding groove, a pushing plate sliding block fixedly connected with the pushing plate is arranged in the pushing plate sliding groove in a sliding manner, the transmission cavity is internally provided with two left belt pulleys fixedly connected with the pushing rotating shaft, the two left belt pulleys are connected through a left belt, the transmission cavity is internally provided with two right belt pulleys fixedly connected, the two right belt pulleys are connected through a right belt; drive assembly include with drive chamber lower extreme wall rotate be located of installation drive sprocket axle left ejection of compact transmission shaft, fixed mounting on the ejection of compact transmission shaft can with driven discharging gear of drive gear meshing and being located the initiative ejection of compact belt pulley of driven discharging gear downside, drive chamber lower extreme wall rotates to be installed and is located the feeding transmission shaft on drive sprocket axle right side, feeding transmission shaft is last fixed mounting have can with driven feeding gear of drive gear meshing and being located the initiative feeding belt pulley of driven feeding gear downside, the transmission intracavity be equipped with left downside promote axis of rotation fixed connection be located left side belt pulley front side and with initiative ejection of compact belt pulley passes through the driven discharging belt pulley that ejection of compact belt is connected, the transmission intracavity be equipped with right downside promote axis of rotation fixed connection be located right side belt pulley front side and with initiative feeding belt pulley leads to A driven feed pulley connected by a feed belt; the power connection component comprises a battery, a power connection port is arranged at the center of the front side of the battery, fixing grooves which are symmetrically arranged by taking the power connection port as a symmetry axis are arranged at the front side of the battery, the front end wall of the power receiving cavity is fixedly provided with a power receiving motor, the rear side of the power receiving motor is in power connection with a screw rod, the screw rod is provided with a sliding box which is in sliding fit with the power connection cavity through threads, the rear side of the sliding box is communicated with the power connection cavity, the front end wall of the sliding box is rotatably provided with an electric connection rotating shaft, an electric connection gear and a driven bevel gear positioned at the rear side of the electric connection gear are fixedly arranged on the electric connection rotating shaft, a sliding rotating shaft is rotatably arranged on the left end wall of the sliding box, a driving bevel gear meshed with the driven bevel gear and a sliding gear positioned on the left side of the driving bevel gear are fixedly arranged on the sliding rotating shaft, and a sliding rack meshed with the sliding gear is fixedly arranged on the rear end wall of the electricity receiving cavity; connect the electric subassembly still include with slide box upper end wall fixed connection's electricity inserting mouth, slide box upper end wall be equipped with the electricity inserting mouth is two fixed block sliding tray of symmetry axis, slide box lower extreme end wall slide be equipped with connect the electricity axis of rotation as two of symmetry axis pass through fixed block sliding tray upwards extend and with fixed slot complex fixed sliding block, left side fixed sliding block front side fixed mounting have with connect the fixed rack of electric gear upside meshing, right side fixed sliding block front side fixed mounting have with connect the fixed rack of electric gear downside meshing.

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