CN109273753B - New energy battery equipment - Google Patents

Abstract

The invention relates to assembling equipment, in particular to new energy battery assembling equipment which comprises a ranking mechanism, a separating mechanism and a power mechanism, wherein the ranking mechanism comprises a first rack, a motor base I, a motor I, a shaft I, a bearing seat I, a conveying wheel, a gear I, a gear II, a shaft II, a bearing seat II, a second rack and a classifying component, the separating mechanism comprises a third rack, a bearing seat III, a supporting table, a separating square tube, a motor base II and a movable opening, the power mechanism comprises a motor II, a cam, a roller, a sliding column, a connecting frame, a guide rail, a first support plate, a first inserting piece, an adjusting frame, a special pin, a nut, a second support plate and a second inserting piece, the positive and negative poles of the batteries in a transfer tube are alternately arranged by the two conveying wheels, the cam drives the roller to reciprocate, so that the distance between the first inserting piece and the second inserting piece is changed, and the number of the batteries falling out of the main body of the separating square, thereby facilitating the assembly of the battery.

Description

New energy battery equipment

Technical Field

The invention relates to assembling equipment, in particular to new energy battery assembling equipment.

Background

The current new energy battery assembly comprises two combination modes of series connection and parallel connection, wherein the series connection mode means that the negative electrode of a first lithium battery is connected with the positive electrode of a second lithium battery, the negative electrode of the second lithium battery is connected with the positive electrode of a third lithium battery, and so on until the required voltage is reached, the parallel connection mode means that the positive electrode of the first lithium battery is connected with the positive electrode of the second lithium battery, the negative electrode is connected with the negative electrode, and so on, the required capacity is reached. In the production process of the lithium battery, the batteries are arranged in the same polarity and the same direction on a production line, workers often need to manually assemble a plurality of lithium batteries together in the assembly process, and the batteries need to be turned over in one direction if the batteries are assembled in series, so that the process is time-consuming and labor-consuming, and the design of new energy battery assembly equipment for assembling the batteries in the series mode is particularly important.

Disclosure of Invention

The invention aims to provide new energy battery assembling equipment which can automatically arrange batteries in a positive direction and a negative direction in an alternating mode and can automatically convey a set number of batteries after arrangement.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a new energy battery equipment, includes ranking mechanism, separating mechanism and power unit, its characterized in that: the ranking mechanism comprises a first rack, a motor base I, a motor I, a shaft I, a bearing seat I, a conveying wheel, a gear I, a gear II, a shaft II, a bearing seat II, a second rack and a classification component, wherein the first rack comprises a first rack main body and a transmission pipe, the transmission pipe is fixedly connected to the first rack main body and penetrates through the upper end of the first rack main body, the motor base I is fixedly connected to the first rack main body, the motor I is fixedly connected to the motor base I, the shaft I is fixedly connected to an output shaft of the motor I, the middle end of the shaft I is rotatably connected into the bearing seat I, the conveying wheel comprises a conveying wheel main body and shifting claws, the four shifting claws are circumferentially and uniformly fixedly connected to the conveying wheel main body, the conveying wheels are provided with two conveying wheels, the front end and the rear end of the shaft I are respectively and fixedly connected with the gear I and one conveying wheel main body, the gear I and the gear II are in meshing, the middle end of the shaft II is rotatably connected in the bearing seat II, the rear end of the bearing seat II is fixedly connected with another conveying wheel main body, the bearing seat I and the bearing seat II are fixedly connected with the first rack main body, the second rack comprises a second rack main body and mounting ports, the upper end of the second rack main body is provided with two mounting ports, the lower end of the second rack main body is fixedly connected with the upper end of the first rack main body, the classification component comprises a classification component main body and a classification port I, the automatic sorting device comprises a sorting port II, a sorting pipe I and a sorting pipe II, wherein the left side and the right side of the upper end of a sorting component main body are respectively provided with the sorting port I and the sorting port II;

the separating mechanism comprises a third rack, bearing seats III, a supporting platform, a separating square tube, a motor base II and a movable port, wherein two bearing seats III and a supporting platform are fixedly connected to the third rack, the separating square tube comprises a separating square tube main body, a short shaft, an inlet, a slot I and a slot II, the short shafts are fixedly connected to the front side and the rear side of the left end of the separating square tube main body, the inlet is arranged on the right side of the upper end of the separating square tube main body, the slot I is arranged on the middle side of the lower end of the separating square tube main body, a plurality of slots II are arranged on the left side of the upper end of the separating square tube main body, the two short shafts are respectively and rotatably connected into the two bearing seats III, the right side of the lower end of the;

the power mechanism comprises a motor II, a cam, a roller, a sliding column, a connecting frame, a guide rail, a first supporting plate, a first inserting piece, an adjusting frame, a special pin, a nut, a second supporting plate and a second inserting piece, the motor II is fixedly connected to a motor base II, the cam is fixedly connected to an output shaft of the motor II, the roller comprises a cylindrical roller and a roller seat, the cylindrical roller is rotatably connected to the lower end of the roller seat and is contacted with the cam, the sliding column is fixedly connected to the upper end of the roller seat, the connecting frame comprises a fixing piece, a cross beam, a wedge-shaped sliding block, an extending column and a connecting column, the rear end of the fixing piece is fixedly connected with the cross beam, the left end and the right end of the cross beam are fixedly connected with the wedge-shaped sliding block, the rear end of the cross beam is fixedly connected with the extending column, the rear end of the extending column is fixedly connected with the connecting column, the middle end of the sliding column is fixedly connected to the fixed sheet, the two wedge-shaped sliding blocks are respectively connected to the linear guide rail I and the linear guide rail II in a sliding mode, the lower end of the connecting column is fixedly connected with a first supporting plate, the upper end of the first supporting plate is fixedly connected with a first inserting sheet, the adjusting frame comprises a square tube, a through hole and a square groove, a plurality of through holes are formed in the upper side of the left end of the square tube, a plurality of square grooves are formed in the left side of the rear end of the square tube and are respectively communicated with the through holes, the lower side of the right end of the square tube is fixedly connected to the upper end of the connecting column, the special pin comprises a square body, a cylindrical pin and a pin cap, the upper end and the lower end of the square body are respectively and fixedly connected with the cylindrical pin and the pin cap, the second supporting plate comprises a second supporting plate main body and a through hole II, the front end of the second supporting plate main body is inserted into one of the square, nut and cylindric lock pass through threaded connection and with the upper end contact of square pipe, the upper end fixed connection of second inserted sheet is at the downside of second extension board main part rear end, and first inserted sheet is inserted in slot I, and the second inserted sheet is inserted in one of them slot II.

According to the new energy battery assembling equipment, the sponge cushions are fixedly connected in the transfer pipe, the classification port I and the classification port II, and the sponge cushion is arranged on the right side of the inner end of the main body of the separation square pipe.

As a further optimization of the technical scheme, according to the new energy battery assembling equipment, any pusher dog on one conveying wheel main body blocks the lower end of the classifying pipe I, and any pusher dog on the other conveying wheel main body cannot block the lower end of the classifying pipe II.

According to the new energy battery assembling equipment, the separating mechanism further comprises an inserting piece, the inserting piece comprises an inserting piece main body and a pull ring, the pull ring is fixedly connected to the rear end of the inserting piece main body, a slot III is further formed in the right side of the rear end of the separating square tube main body, and the inserting piece main body is inserted into the slot III.

As a further optimization of the technical scheme, the power mechanism further comprises a spring, the spring is sleeved on the sliding column, the guide rail further comprises a guide rail top plate, the left side and the right side of the lower end of the guide rail top plate are respectively and fixedly connected to the upper ends of the linear guide rail I and the linear guide rail II, the sliding column is connected to the guide rail top plate in a sliding mode, and the spring is located between the fixing plate and the guide rail top plate.

The new energy battery assembling equipment has the beneficial effects that:

the positive and negative poles of the battery in the transfer pipe can be arranged alternately by the two conveying wheels, and the cam drives the roller to generate reciprocating motion to change the distance between the first inserting piece and the second inserting piece, so that the quantity of the battery falling out of the main body of the square pipe at each time can be changed, and the battery can be assembled conveniently.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the overall structure of a new energy battery assembling device according to the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is an overall cross-sectional schematic view of the present invention;

FIG. 4 is a schematic view of the indexing mechanism of the present invention;

FIG. 5 is a schematic view of a first frame structure of the present invention;

FIG. 6 is a schematic view of the delivery wheel configuration of the present invention;

FIG. 7 is a schematic view of a second housing construction of the present invention;

FIG. 8 is a schematic view of the sorting member structure of the present invention;

FIG. 9 is a schematic view of the release mechanism of the present invention;

FIG. 10 is a schematic view of the split square tube configuration of the present invention;

FIG. 11 is a schematic view of the bottom view of the separator tube of the present invention;

FIG. 12 is a schematic view of the insert of the present invention;

FIG. 13 is a schematic view of the power mechanism of the present invention;

FIG. 14 is a schematic view of the roller construction of the present invention;

FIG. 15 is a schematic view of the structure of the connecting frame of the present invention;

FIG. 16 is a schematic view of the guide rail configuration of the present invention;

FIG. 17 is a schematic view of the structure of the adjustable stand of the present invention;

FIG. 18 is a schematic illustration of a special pin configuration of the present invention;

FIG. 19 is a schematic view of a second plate construction of the present invention.

In the figure: a ranking mechanism 1; a first frame 1-1; a first frame body 1-1-1; a transfer tube 1-1-2; a motor base I1-2; 1-3 of a motor; 1-4 of a shaft I; 1-5 of a bearing seat I; conveying wheels 1-6; a conveying wheel main body 1-6-1; 1-6-2 of a pusher dog; 1-7 parts of a gear I; gears II 1-8; shafts II 1-9; 1-10 parts of a bearing seat II; a second frame 1-11; a second housing main body 1-11-1; mounting ports 1-11-2; sorting members 1-12; a classification member body 1-12-1; classification port I1-12-2; classification ports II 1-12-3; 1-12-4 of a classifying pipe; 1-12-5 of a classification tube II; a separation mechanism 2; a third frame 2-1; a bearing seat III 2-2; a support table 2-3; separating the square tubes for 2-4; separating the square tube main body 2-4-1; minor axis 2-4-2; 2-4-3 of an inlet port; slots I are 2-4-4; slot II 2-4-5; slot III 2-4-6; 2-5 of inserting pieces; 2-5-1 of an insert main body; 2-5-2 of a pull ring; motor bases II 2-6; 2-7 of a movable opening; the power mechanism 3 is provided with a motor II 3-1; 3-2 of the cam; 3-3 of rollers; 3-3-1 of a cylindrical roller; 3-3-2 parts of a roller seat; 3-4 of a sliding column; 3-5 of a connecting frame; 3-5-1 parts of a fixing piece; 3-5-2 of a cross beam; 3-5-3 of a wedge-shaped sliding block; 3-5-4 of an extension column; connecting columns 3-5-5; 3-6 of guide rails; 3-6-1 of a guide rail top plate; 3-6-2 parts of a linear guide rail; 3-6-3 parts of a linear guide rail II; 3-7 of a spring; 3-8 parts of a first support plate; 3-9 parts of a first inserting sheet; 3-10 parts of an adjusting frame; 3-10-1 of a square tube; 3-10-2 of a through hole; 3-10-3 of a square groove; 3-11 parts of special pins; 3-11-1 of cube; 3-11-2 of a cylindrical pin; 3-11-3 parts of a pin cap; 3-12 parts of a nut; a second plate 3-13; a second plate body 3-13-1; a through hole II 3-13-2; second insert pieces 3-14.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 19, and a new energy battery assembling apparatus includes a ranking mechanism 1, a separating mechanism 2, and a power mechanism 3, wherein two conveying wheels 1 to 6 are used to alternately arrange the positive and negative electrodes of the battery in a transfer pipe 1 to 2, and a cam 3 to 2 drives a roller 3 to generate a reciprocating motion, so as to change the distance between a first inserting piece 3 to 9 and a second inserting piece 3 to 14, so as to change the number of batteries falling out of a main body 2 to 4 to 1 of a separating square pipe each time, thereby facilitating the assembly of the battery.

The ranking mechanism 1 comprises a first rack 1-1, a motor base I1-2, a motor I1-3, a shaft I1-4, a bearing seat I1-5, a conveying wheel 1-6, a gear I1-7, a gear II 1-8, a shaft II 1-9, a bearing seat II 1-10, a second rack 1-11 and a classification component 1-12, wherein the first rack 1-1 comprises a first rack main body 1-1-1 and a transmission pipe 1-1-2, the transmission pipe 1-1-2 is fixedly connected to the first rack main body 1-1-1 and penetrates through the upper end of the first rack main body 1-1-1, the motor base I1-2 is fixedly connected to the motor base I1-3, the output shaft of the motor I1-3 is fixedly connected with a shaft I1-4, the middle end of the shaft I1-4 is rotatably connected in a bearing seat I1-5, the conveying wheel 1-6 comprises a conveying wheel main body 1-6-1 and a pusher dog 1-6-2, four pusher dogs 1-6-2 are circumferentially and uniformly fixedly connected on the conveying wheel main body 1-6-1, two conveying wheels 1-6 are arranged, the front end and the rear end of the shaft I1-4 are respectively fixedly connected with a gear I1-7 and one conveying wheel main body 1-6-1, the gear I1-7 is in meshing transmission with a gear II 1-8, the gear II 1-8 is fixedly connected at the front end of the shaft II 1-9, the middle end of the shaft II 1-9 is rotatably connected in a bearing seat II 1-10, the rear end of the bearing seat II 1-10 is fixedly connected with another conveying wheel main body 1-6-1, the bearing seat I1-5 and the bearing seat II 1-10 are fixedly connected with the first frame main body 1-1-1, the second frame 1-11 comprises a second frame main body 1-11-1 and a mounting port 1-11-2, the upper end of the second frame main body 1-11-1 is provided with two mounting ports 1-11-2, the lower end of the second frame main body 1-11-1 is fixedly connected with the upper end of the first frame main body 1-1-1, the classification member 1-12 comprises a classification member main body 1-12-1, a classification port I1-12-2, a classification port II 1-12-3, a classification pipe I1-12-4 and a classification pipe II 1-12-5, the left side and the right side of the upper end of a main body 1-12-1 of a classification component are respectively provided with a classification port I1-12-2 and a classification port II 1-12-3, the left side and the right side of the lower end of the main body 1-12-1 of the classification component are respectively and fixedly connected with a classification pipe I1-12-4 and a classification pipe II 1-12-5, the classification port I1-12-2 is communicated with the classification pipe I1-12-4, the classification pipe I1-12-4 and the classification pipe II 1-12-5 are respectively positioned at the upper ends of two main bodies 1-6-1 of conveying wheels, a ranking mechanism 1 is mainly used for outputting batteries according to the condition that one positive electrode is positioned at the front end, and the next negative electrode is positioned at the front end and arranged alternately, the arrangement sequence of the positive and negative electrodes of the battery can be changed according to actual conditions;

the separating mechanism 2 comprises a third frame 2-1, bearing seats III 2-2, supporting tables 2-3, a separating square pipe 2-4, a motor base II 2-6 and a movable opening 2-7, the third frame 2-1 is fixedly connected with the two bearing seats III 2-2 and the supporting tables 2-3, the separating square pipe 2-4 comprises a separating square pipe main body 2-4-1, a short shaft 2-4-2, an inlet 2-4-3, a slot I2-4-4 and a slot II 2-4-5, the front side and the rear side of the left end of the separating square pipe main body 2-4-1 are fixedly connected with the short shaft 2-4-2, the right side of the upper end of the separating square pipe main body 2-4-1 is provided with the inlet 2-4-3, the middle side of the lower end of the separation square pipe main body 2-4-1 is provided with a slot I2-4-4, the left side of the upper end of the separation square pipe main body 2-4-1 is provided with a plurality of slots II 2-4-5, two short shafts 2-4-2 are respectively and rotatably connected into two bearing seats III 2-2, the right side of the lower end of the separation square pipe main body 2-4-1 is fixedly connected to the upper end of a support table 2-3, the lower end of the first rack main body 1-1-1 is fixedly connected to the upper end of a third rack 2-1, the lower end of a transfer pipe 1-1-2 is positioned at the upper end of an inlet port 2-4-3, and the right end of the separation square pipe 2-4 can be increased if the support table 2;

the power mechanism 3 comprises a motor II 3-1, a cam 3-2, a roller 3-3, a sliding column 3-4, a connecting frame 3-5, a guide rail 3-6, a first supporting plate 3-8, a first inserting piece 3-9, an adjusting frame 3-10, a special pin 3-11, a nut 3-12, a second supporting plate 3-13 and a second inserting piece 3-14, the motor II 3-1 is fixedly connected to a motor base II 2-6, the cam 3-2 is fixedly connected to an output shaft of the motor II 3-1, the roller 3-3 comprises a cylindrical roller 3-3-1 and a roller base 3-3-2, the cylindrical roller 3-3-1 is rotatably connected to the lower end of the roller base 3-3-2, and the cylindrical roller 3-3-1 is in contact with the cam 3-2, the upper end of the roller seat 3-3-2 is fixedly connected with a sliding column 3-4, the connecting frame 3-5 comprises a fixing piece 3-5-1, a cross beam 3-5-2, a wedge-shaped sliding block 3-5-3, an extension column 3-5-4 and a connecting column 3-5-5, the rear end of the fixing piece 3-5-1 is fixedly connected with the cross beam 3-5-2, the left end and the right end of the cross beam 3-5-2 are both fixedly connected with the wedge-shaped sliding block 3-5-3, the rear end of the cross beam 3-5-2 is fixedly connected with the extension column 3-5-4, the rear end of the extension column 3-5-4 is fixedly connected with the connecting column 3-5-5, the guide rail 3-6 comprises a linear guide rail I3-6-2 and a linear guide rail, the lower ends of the linear guide rails I3-6-2 and the linear guide rails II 3-6-3 are fixedly connected to the upper end of a third rack 2-1, the middle end of a sliding column 3-4 is fixedly connected to a fixing sheet 3-5-1, two wedge-shaped sliding blocks 3-5-3 are respectively and slidably connected to the linear guide rails I3-6-2 and the linear guide rails II 3-6-3, the lower end of a connecting column 3-5-5 is fixedly connected with a first supporting plate 3-8, the upper end of the first supporting plate 3-8 is fixedly connected with a first inserting sheet 3-9, an adjusting frame 3-10 comprises a square pipe 3-10-1, a through opening 3-10-2 and a square groove 3-10-3, the upper side of the left end of the square pipe 3-10-1 is provided with a plurality of through openings 3-10-2, the left side of the rear end of the square pipe 3-10-1 is provided with a plurality of square grooves 3-10-3, the plurality of square grooves 3-10-3 are respectively communicated with a plurality of through openings 3-10-2, the lower side of the right end of the square pipe 3-10-1 is fixedly connected with the upper end of a connecting column 3-5-5, a special pin 3-11 comprises a square body 3-11-1, a cylindrical pin 3-11-2 and a pin cap 3-11-3, the upper end and the lower end of the square body 3-11-1 are respectively fixedly connected with the cylindrical pin 3-11-2 and the pin cap 3-11-3, a second support plate 3-13 comprises a second support plate main body 3-13-1 and a through opening II 3-13-2, the front end of the second support plate main body 3-13-1 is provided with a through opening II 3-13-2, the front end of a second support plate main body 3-13-1 is inserted into one square groove 3-10-3, a square body 3-11-1 penetrates through a through opening II 3-13-2 pin cap 3-11-3 to be contacted with the lower end of a square tube 3-10-1, a nut 3-12 is connected with a cylindrical pin 3-11-2 through threads and is contacted with the upper end of the square tube 3-10-1, the upper end of a second inserting piece 3-14 is fixedly connected with the lower side of the rear end of the second support plate main body 3-13-1, a first inserting piece 3-9 is inserted into one inserting groove I2-4-4, a second inserting piece 3-14 is inserted into one inserting groove II 2-4-5, a cam mechanism composed of a cam 3-2 and the like in a power mechanism 3 enables the first inserting piece 3-9 and the second inserting piece 3-14 to be capable of simultaneously ascending and descending, due to the vertical distance between the first inserting piece 3-9 and the second inserting piece 3-14, one of the first inserting pieces is arranged outside the main body 2-4-1 of the separating square tube, and the other one is arranged outside the main body 2-4-1 of the separating square tube, so that one can block the battery, and the other can release the battery.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 19, and the embodiment will be further described, wherein sponge pads are fixedly connected in the transfer pipe 1-1-2, the classification port i 1-12-2 and the classification port ii 1-12-3, and the right side of the inner end of the separation square pipe main body 2-4-1 is provided with a sponge pad for preventing the battery from being damaged when falling.

The third concrete implementation mode:

the present embodiment will be described with reference to fig. 1 to 19, and will be further described, wherein any finger 1-6-2 on one of the conveying wheel bodies 1-6-1 will block the lower end of the sorting tube i 1-12-4, and any finger 1-6-2 on the other conveying wheel body 1-6-1 will not block the lower end of the sorting tube ii 1-12-5, so that one battery will fall and the other battery will not fall until it is waited for to fall.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 19, and the embodiment further describes the first embodiment, the separating mechanism 2 further includes an inserting piece 2-5, the inserting piece 2-5 includes an inserting piece main body 2-5-1 and a pull ring 2-5-2, the pull ring 2-5-2 is fixedly connected to the rear end of the inserting piece main body 2-5-1, a slot iii 2-4-6 is further disposed on the right side of the rear end of the separating square pipe main body 2-4-1, the inserting piece main body 2-5-1 is inserted into the slot iii 2-4-6, and when the inserting piece main body 2-5-1 is pulled out, a battery can be manually placed, so that the arrangement condition of the battery can be adjusted according to actual conditions.

The fifth concrete implementation mode:

this embodiment will be described with reference to fig. 1 to 19, and this embodiment will further describe a fourth embodiment, the power mechanism 3 also comprises a spring 3-7, the spring 3-7 is sleeved on the sliding column 3-4, the guide rail 3-6 further comprises a guide rail top plate 3-6-1, the left side and the right side of the lower end of the guide rail top plate 3-6-1 are fixedly connected to the upper ends of the linear guide rail I3-6-2 and the linear guide rail II 3-6-3 respectively, the sliding column 3-4 is connected to the guide rail top plate 3-6-1 in a sliding mode, the spring 3-7 is located between the fixing plate 3-5-1 and the guide rail top plate 3-6-1, and the cylindrical roller 3-3-1 and the cam 3-2 are always kept in contact through the spring 3-7.

The invention relates to a new energy battery assembling device, which has the working principle that:

batteries with positive poles positioned at the front ends are placed into the classification openings I1-12-2, batteries with negative poles positioned at the front ends are placed into the classification openings II 1-12-3, the motor I1-3 is started, the output shaft of the motor I1-3 drives the shaft I1-4 to rotate, the shaft I1-4 drives one of the conveying wheels 1-6 to rotate on one hand and drives the gear I1-7 to rotate on the other hand, the gear I1-7 drives the gear II 1-8 to rotate, the gear II 1-8 drives the shaft II 1-9 to rotate, the shaft II 1-9 drives the other conveying wheel 1-6 to rotate, namely the two conveying wheels 1-6 rotate simultaneously, as can be known from figure 3, the conveying wheels 1-6 positioned at the left ends can block the batteries, and the batteries in the classification openings I1-12-2 cannot fall down, the batteries in the classification openings II 1-12-3 are conveyed into the transfer pipe 1-1-2 by the conveying wheel 1-6 at the right end, the batteries in the classification openings II 1-12-3 are blocked by the conveying wheel 1-6 at the right end, the batteries in the classification openings I1-12-2 are conveyed into the transfer pipe 1-1-2 by the conveying wheel 1-6 at the left end, the positive and negative electrodes of the batteries in the transfer pipe 1-1-2 are alternately arranged, the batteries fall out of the transfer pipe 1-1-2 and fall into the main body 2-4-1 of the separation square pipe through the inlet opening 2-4-3, the batteries with the alternately arranged positive and negative electrodes slide to the left end from the right end of the main body 2-4-1 of the separation square pipe through gravity and are blocked by the first inserting piece 3-9, starting the motor II 3-1, driving the cam 3-2 to rotate by the motor II 3-1, driving the roller 3-3 to move up and down by the cam 3-2, further driving the connecting frame 3-5 to move up and down, as can be seen from figure 13, the connecting frame 3-5 moves downwards first, then the connecting frame 3-5 makes the first inserting sheet 3-9 move downwards first, the second inserting sheet 3-14 also moves downwards, as can be seen from figure 3, the battery blocked by the first inserting sheet 3-9 slides downwards continuously and is blocked by the second inserting sheet 3-14, when the connecting frame 3-5 moves upwards, the first inserting sheet 3-9 and the second inserting sheet 3-14 also move upwards, further the battery at the right end of the first inserting sheet 3-9 is blocked continuously, the battery at the left end of the first inserting sheet 3-9 slides out of the main body 2-4-1 of the separating square pipe, the number of the positive and negative poles of the batteries sliding out of the main body 2-4-1 of the separating square tube is determined by the distance between the first inserting piece 3-9 and the second inserting piece 3-14, when the number of the batteries falling out of the main body 2-4-1 of the separating square tube is to be increased, the second inserting piece 3-14 can be moved to the left, the nut 3-12 is firstly screwed off, the special pin 3-11 is further pulled out, then the second support plate 3-13 is taken out, the second support plate 3-13 is inserted into the next square groove 3-10-3 at the left end, finally the special pin 3-11 is inserted into the through opening 3-10-2 again, then the nut 3-12 is screwed, and the step of increasing the distance between the first inserting piece 3-9 and the second inserting piece 3-14 is completed.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (5)

1. The utility model provides a new energy battery equipment, includes ranking mechanism (1), separating mechanism (2) and power unit (3), its characterized in that: the ranking mechanism (1) comprises a first rack (1-1), a motor base I (1-2), a motor I (1-3), a shaft I (1-4), bearing seats I (1-5), conveying wheels (1-6), gears I (1-7), gears II (1-8), a shaft II (1-9), bearing seats II (1-10), a second rack (1-11) and classification components (1-12), the first rack (1-1) comprises a first rack main body (1-1-1) and a transmission pipe (1-1-2), the transmission pipe (1-1-2) is fixedly connected to the first rack main body (1-1-1) and penetrates through the upper end of the first rack main body (1-1-1), and the motor base I (1-2) is fixedly connected to the first rack main body (1-1-1) ) The automatic feeding device comprises a motor base I (1-2), a motor I (1-3) is fixedly connected to the motor base I (1-2), a shaft I (1-4) is fixedly connected to an output shaft of the motor I (1-3), the middle end of the shaft I (1-4) is rotatably connected into a bearing seat I (1-5), a conveying wheel (1-6) comprises a conveying wheel main body (1-6-1) and shifting claws (1-6-2), four shifting claws (1-6-2) are circumferentially and uniformly fixedly connected onto the conveying wheel main body (1-6-1), two conveying wheels (1-6) are arranged, gears I (1-7) and one conveying wheel main body (1-6-1) are respectively and fixedly connected to the front end and the rear end of the shaft I (1-4), and the gears I (1-7) and gears II (1-8) are in meshing transmission, the gear II (1-8) is fixedly connected to the front end of the shaft II (1-9), the middle end of the shaft II (1-9) is rotatably connected into the bearing seat II (1-10), the rear end of the bearing seat II (1-10) is fixedly connected with another conveying wheel main body (1-6-1), the bearing seat I (1-5) and the bearing seat II (1-10) are fixedly connected to the first rack main body (1-1-1), the second rack (1-11) comprises a second rack main body (1-11-1) and a mounting port (1-11-2), the upper end of the second rack main body (1-11-1) is provided with two mounting ports (1-11-2), the lower end of the second rack main body (1-11-1) is fixedly connected to the upper end of the first rack main body (1-1-1), the classification component (1-12) comprises a classification component main body (1-12-1), a classification port I (1-12-2), a classification port II (1-12-3), a classification pipe I (1-12-4) and a classification pipe II (1-12-5), wherein the classification port I (1-12-2) and the classification port II (1-12-3) are respectively arranged on the left side and the right side of the upper end of the classification component main body (1-12-1), the classification pipe I (1-12-4) and the classification pipe II (1-12-5) are respectively and fixedly connected with the left side and the right side of the lower end of the classification component main body (1-12-1), the classification port I (1-12-2) is communicated with the classification pipe I (1-12-4), the classification port II (1-12-3) is communicated with the classification pipe II (1-12-5), the classifying pipes I (1-12-4) and II (1-12-5) are respectively positioned at the upper ends of the two conveying wheel main bodies (1-6-1);

the separating mechanism (2) comprises a third rack (2-1), a bearing seat III (2-2), a supporting table (2-3), a separating square pipe (2-4), a motor base II (2-6) and a movable opening (2-7), the third rack (2-1) is fixedly connected with the two bearing seats III (2-2) and the supporting table (2-3), the separating square pipe (2-4) comprises a separating square pipe main body (2-4-1), a short shaft (2-4-2), an inlet opening (2-4-3), a slot I (2-4-4) and a slot II (2-4-5), the front side and the rear side of the left end of the separating square pipe main body (2-4-1) are fixedly connected with the short shafts (2-4-2), an inlet opening (2-4-3) is formed in the right side of the upper end of the separating square pipe main body (2-4-1), a slot I (2-4-4) is formed in the middle side of the lower end of the separating square pipe main body (2-4-1), a plurality of slots II (2-4-5) are formed in the left side of the upper end of the separating square pipe main body (2-4-1), two short shafts (2-4-2) are respectively and rotatably connected into two bearing seats III (2-2), the right side of the lower end of the separating square pipe main body (2-4-1) is fixedly connected to the upper end of a supporting table (2-3), the lower end of the first frame main body (1-1-1) is fixedly connected to the upper end of a third frame (2-1), and the lower end of a transfer pipe (1-1-2) is;

the power mechanism (3) comprises a motor II (3-1), a cam (3-2), rollers (3-3), a sliding column (3-4), a connecting frame (3-5), a guide rail (3-6), a first support plate (3-8), a first inserting piece (3-9), an adjusting frame (3-10), a special pin (3-11), a nut (3-12), a second support plate (3-13) and a second inserting piece (3-14), the motor II (3-1) is fixedly connected to a motor base II (2-6), the cam (3-2) is fixedly connected to an output shaft of the motor II (3-1), the rollers (3-3) comprise cylindrical rollers (3-3-1) and roller bases (3-3-2), and the cylindrical rollers (3-3-1) are rotatably connected to the roller bases (3-3-2) The lower end, the cylindrical roller (3-3-1) contacts with the cam (3-2), the upper end of the roller seat (3-3-2) is fixedly connected with a sliding column (3-4), the connecting frame (3-5) comprises a fixing piece (3-5-1), a cross beam (3-5-2), a wedge-shaped sliding block (3-5-3), an extension column (3-5-4) and a connecting column (3-5-5), the rear end of the fixing piece (3-5-1) is fixedly connected with the cross beam (3-5-2), the left end and the right end of the cross beam (3-5-2) are both fixedly connected with the wedge-shaped sliding block (3-5-3), the rear end of the cross beam (3-5-2) is fixedly connected with the extension column (3-5-4), the rear end of the extension column (3-5-4) is fixedly connected with a connecting column (3-5-5), the guide rail (3-6) comprises a linear guide rail I (3-6-2) and a linear guide rail II (3-6-3), the lower ends of the linear guide rail I (3-6-2) and the linear guide rail II (3-6-3) are fixedly connected with the upper end of a third rack (2-1), the middle end of the sliding column (3-4) is fixedly connected with a fixing piece (3-5-1), two wedge-shaped sliding blocks (3-5-3) are respectively connected in the linear guide rail I (3-6-2) and the linear guide rail II (3-6-3) in a sliding mode, the lower end of the connecting column (3-5-5) is fixedly connected with a first support plate (3-8), the upper end of the first support plate (3-8) is fixedly connected with a first inserting piece (3-9), the adjusting frame (3-10) comprises a square tube (3-10-1), a through hole (3-10-2) and a square groove (3-10-3), the upper side of the left end of the square tube (3-10-1) is provided with a plurality of through holes (3-10-2), the left side of the rear end of the square tube (3-10-1) is provided with a plurality of square grooves (3-10-3), the square grooves (3-10-3) are respectively communicated with the through holes (3-10-2), the lower side of the right end of the square tube (3-10-1) is fixedly connected to the upper end of the connecting column (3-5-5), and the special pin (3-11) comprises a square body (3-11-1), The square pipe comprises a cylindrical pin (3-11-2) and a pin cap (3-11-3), the upper end and the lower end of a square body (3-11-1) are respectively and fixedly connected with the cylindrical pin (3-11-2) and the pin cap (3-11-3), a second support plate (3-13) comprises a second support plate main body (3-13-1) and a through opening II (3-13-2), the front end of the second support plate main body (3-13-1) is provided with the through opening II (3-13-2), the front end of the second support plate main body (3-13-1) is inserted into one square groove (3-10-3), the square body (3-11-1) passes through the through opening II (3-13-2) to be contacted with the lower end of the square pipe (3-10-1), the nut (3-12) is in threaded connection with the cylindrical pin (3-11-2) and is in contact with the upper end of the square pipe (3-10-1), the upper end of the second inserting piece (3-14) is fixedly connected to the lower side of the rear end of the second support plate main body (3-13-1), the first inserting piece (3-9) is inserted into the slot I (2-4-4), and the second inserting piece (3-14) is inserted into one slot II (2-4-5).

2. The new energy battery assembling apparatus according to claim 1, wherein: sponge cushions are fixedly connected in the transfer pipe (1-1-2), the classification port I (1-12-2) and the classification port II (1-12-3), and the right side of the inner end of the separation square pipe main body (2-4-1) is provided with the sponge cushions.

3. The new energy battery assembling apparatus according to claim 1, wherein: any pusher dog (1-6-2) on one conveying wheel main body (1-6-1) blocks the lower end of the sorting tube I (1-12-4), and any pusher dog (1-6-2) on the other conveying wheel main body (1-6-1) cannot block the lower end of the sorting tube II (1-12-5).

4. The new energy battery assembling apparatus according to claim 1, wherein: separating mechanism (2) still include inserted sheet (2-5), inserted sheet (2-5) including inserted sheet main part (2-5-1) and pull ring (2-5-2), the rear end fixedly connected with pull ring (2-5-2) of inserted sheet main part (2-5-1), the right side of separation side pipe main part (2-4-1) rear end still be provided with slot III (2-4-6), inserted sheet main part (2-5-1) is inserted in slot III (2-4-6).

5. The new energy battery assembling apparatus according to claim 1, wherein: the power mechanism (3) further comprises springs (3-7), the springs (3-7) are sleeved on the sliding columns (3-4), the guide rails (3-6) further comprise guide rail top plates (3-6-1), the left side and the right side of the lower ends of the guide rail top plates (3-6-1) are fixedly connected to the upper ends of the linear guide rails I (3-6-2) and the linear guide rails II (3-6-3) respectively, the sliding columns (3-4) are connected to the guide rail top plates (3-6-1) in a sliding mode, and the springs (3-7) are located between the fixing plates (3-5-1) and the guide rail top plates (3-6-1).

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