CN103612899B - A kind of novel battery hypanthium arranging-in-row device - Google Patents

Abstract

The invention provides a kind of novel battery hypanthium arranging-in-row device, belong to battery permutation equipment technical field.It solve existing battery tray alignment device permutation efficiency compared with low, that noise large, floor area is larger problem.This novel battery hypanthium arranging-in-row device comprises plummer and is arranged on the guipure on plummer, described guipure is placed with some battery hypanthiums, described plummer is provided with the main transporting chain plate being in same level with guipure, described main transporting chain plate communicates with guipure and arranges in angle, and described main transporting chain plate only can hold a row battery hypanthium to be passed through.This novel battery hypanthium arranging-in-row device has that noise is little, floor area is little and the advantage that permutation efficiency is high.

Description

A kind of novel battery hypanthium arranging-in-row device

Technical field

The invention belongs to battery permutation equipment technical field, relate to a kind of novel battery hypanthium arranging-in-row device.

Background technology

In the automatic battery flow production line in modern times, most of alkaline battery is cylindrical, is individually square.Battery hypanthium is used to the device holding battery, and on production line for manufacturing battery, battery manufacture out loads battery hypanthium afterwards and is ramblingly arranged on one section of guipure, and in the process of slow movement on guipure, the battery acid time delay in battery is fully absorbed.On the automation battery manufacturing line in modern times, often can use battery tray alignment device, for battery hypanthium is organized into row, be supplied to follow-up equipment.

In prior art, general adopt two kinds of battery tray alignment device, a kind of is the effect being realized battery hypanthium permutation by cylinder, outer baffle, Internal baffle.Formed between outer baffle and Internal baffle and derive passage, derive passage head end and be communicated with the discharge end of guipure, the end of derivation passage is to hold " one " font passage that a row battery hypanthium passes through.

The principle of work of this battery tray alignment device is: when the discharge end that battery hypanthium passes guipure enters in derivation passage, cylinder passes through constantly reciprocating Internal baffle lateral wall, Internal baffle produces certain squeese pressure to close-packed arrays battery hypanthium together in derivation passage, finally battery hypanthium is gradually narrowed into row, be sent to other follow-up equipment by " one " font passage of end.

Mainly there is following shortcoming in the battery tray alignment device of this structure: one, " one " font passage can only hold a row battery hypanthium to be passed through, cylinder is reciprocating Internal baffle constantly, in the process of this extruding, battery hypanthium is tried to be the first and will be passed through " one " font passage, because squeezing effect is uncertain, easily formed at " one " font feeder connection place and block blocking, permutation efficiency is lower; Two, because the gap between battery hypanthium and battery hypanthium is not fixed, when battery hypanthium is subject to extraneous squeese pressure, friction between battery hypanthium and battery hypanthium causes the easy overturning of battery hypanthium, and then also can form the phenomenon blocking blocking, battery hypanthium itself is is also easily worn and torn, and reduces work efficiency; Three, in the cylinder process that constantly reciprocating Internal baffle extrudes, can produce larger noise in the process of clashing between battery hypanthium and battery hypanthium, the battery acid simultaneously in battery easily spills in extruding knockout process.

Existing another kind of battery tray alignment device realizes the effect of battery hypanthium permutation by rotating disk and transporting rail.Battery hypanthium operates at rotating disk top, through shifting board, battery hypanthium is pushed to outside rotating disk again, baffle plate outside rotating disk is only by a row battery hypanthium, unnecessary battery hypanthium is pressed against inside rotating disk, next cycle is pushed to the outer side shield of rotating disk by shifting board again, and form a line discharge outside rotating disk.

Mainly there is following shortcoming in the battery tray alignment device of this structure: one, rotating disk are larger, and general diameter is about 800mm, and the floor area of equipment is larger; Two, during dial rotation, friction causes the easy overturning of battery hypanthium, and formed between battery hypanthium and battery hypanthium and block blocking, permutation efficiency is not high; Three, have percentage of batteries hypanthium at rotating disk exit end and cannot enter rotating disk all the time, until other battery hypanthium all produces and just to produce afterwards, easily trapping phenomena is produced like this at rotating disk exit end place, can not realize the first in first out of battery hypanthium, and the prolonged stay of percentage of batteries hypanthium can affect the quality of battery product.

In sum, for solving the structural deficiency of existing battery tray alignment device, need to design that a kind of noise is little, floor area is little and the battery tray alignment device that permutation efficiency is high.

Summary of the invention

The object of the invention is to there are the problems referred to above for existing technology, propose that a kind of noise is little, floor area is little and the novel battery hypanthium arranging-in-row device that permutation efficiency is high.

Object of the present invention realizes by following technical proposal: a kind of novel battery hypanthium arranging-in-row device, comprise plummer and be arranged on the guipure on plummer, described guipure is placed with some battery hypanthiums, described plummer is provided with the main transporting chain plate being in same level with guipure, described main transporting chain plate communicates with guipure and arranges in angle, and described main transporting chain plate only can hold a row battery hypanthium to be passed through.

In above-mentioned a kind of novel battery hypanthium arranging-in-row device, the first transporting chain plate and the first baffle plate is provided with between described main transporting chain plate and guipure, described first transporting chain plate and main transporting chain plate are in same level, described first transporting chain plate respectively with guipure, main transporting chain plate communicates, the throughput direction of described first transporting chain plate is identical with the throughput direction of main transporting chain plate, the delivery speed of described main transporting chain plate is greater than the delivery speed of the first transporting chain plate, the delivery speed of described first transporting chain plate is greater than the delivery speed of guipure, the head end of described first baffle plate is resisted against on the lateral wall of guipure, the end of the first baffle plate is resisted against on the lateral wall of main transporting chain plate.

In above-mentioned a kind of novel battery hypanthium arranging-in-row device, described plummer is provided with to be in same level with main transporting chain plate return transporting chain plate, described main transporting chain plate is at the first transporting chain plate and return between transporting chain plate, the described transporting chain plate that returns communicates with main transporting chain plate, the described throughput direction returning transporting chain plate is contrary with the throughput direction of main transporting chain plate, described in return the delivery speed of transporting chain plate identical with the delivery speed of main transporting chain plate.

In above-mentioned a kind of novel battery hypanthium arranging-in-row device, the second transporting chain plate being in same level with main transporting chain plate is provided with between described guipure and the first transporting chain plate, described second transporting chain plate communicates with guipure, the first transporting chain plate respectively, the throughput direction of described second transporting chain plate is identical with the throughput direction of main transporting chain plate, the delivery speed of described first transporting chain plate is greater than the delivery speed of the second transporting chain plate, and the delivery speed of described second transporting chain plate is more than or equal to the delivery speed of guipure.

In above-mentioned a kind of novel battery hypanthium arranging-in-row device, described plummer is provided with the second baffle run through by the first transporting chain plate, described second baffle can do linear reciprocating motion along the throughput direction of the first transporting chain plate, when second baffle moves to the proximal most position of distance the first baffle plate, the gap between second baffle and the first baffle plate only can hold a battery hypanthium and pass through.

In above-mentioned a kind of novel battery hypanthium arranging-in-row device, described plummer is provided with and is horizontally disposed with and the rotating disk tangent with main transporting chain plate.

In above-mentioned a kind of novel battery hypanthium arranging-in-row device, described plummer is also provided with the 3rd transporting chain plate battery hypanthium on described main transporting chain plate being flowed to next process, described rotating disk is arranged between main transporting chain plate and the 3rd transporting chain plate.

In above-mentioned a kind of novel battery hypanthium arranging-in-row device, described 3rd transporting chain plate is with main transporting chain plate size, delivery speed is all equal and throughput direction is contrary.

In above-mentioned a kind of novel battery hypanthium arranging-in-row device, described plummer is provided with third gear plate and rear baffle, backward channel is formed between described third gear plate and rear baffle, described third gear plate comprises the first stop part be connected as a single entity, second stop part and the 3rd stop part, described second stop part is between the first stop part and the 3rd stop part, described rear baffle comprises the Anti-fall portion and side portion that are connected as a single entity, the described transporting chain plate that returns is between the 3rd stop part and Anti-fall portion, described second transporting chain plate is between the first stop part and guipure, described second baffle is between the first baffle plate and the second stop part.

In above-mentioned a kind of novel battery hypanthium arranging-in-row device, described battery hypanthium profile is cylindrical.

Adopt the present invention, there is following beneficial effect:

1, by adopting the conveying chain plate structure that multiple speed is different, battery hypanthium on guipure is transported to and only can holds on main transporting chain plate that a row battery hypanthium passes through, period, second baffle constantly moves reciprocatingly, gap between first baffle plate and second baffle is constantly changed, thus the battery hypanthium quantity entered on main transporting chain plate is constantly changed, the blockage problem controlling to produce when the battery hypanthium quantity entered on main transporting chain plate also solves battery hypanthium permutation simultaneously can not only be realized like this.

What 2, such structure made that battery hypanthium can be orderly enters main transporting chain plate, is not easy to produce collision problem, and battery hypanthium also can not overturning, reduces noise.

3, permutation efficiency is not by rotating disk dimensional restriction, and can according to different demands allotment baffle plate and transporting chain plate position, and alerting ability is large.

4, arranging-in-row device floor area is little, and installation form is flexible, can according to the throughput direction of the flow arrangement battery hypanthium of front and back.

Accompanying drawing explanation

Fig. 1 is the structural representation of a preferred embodiment of the present invention.

Fig. 2 is the structural representation at another visual angle of the hypanthium arranging-in-row device of novel battery shown in Fig. 1.

Fig. 3 is the structural representation after removing plummer in a preferred embodiment of the present invention.

Fig. 4 is the structural representation at another visual angle of Fig. 3.

In figure, 10, plummer; 20, guipure; 30, battery hypanthium; 41, main transporting chain plate; 42, the first transporting chain plate; 43, transporting chain plate is returned; 44, the second transporting chain plate; 45, the 3rd transporting chain plate; 51, the first baffle plate; 52, second baffle; 53, third gear plate; 531, the first stop part; 532, the second stop part; 533, the 3rd stop part; 54, rear baffle; 541, Anti-fall portion; 542, side portion; 60, rotating disk.

Detailed description of the invention

Be below specific embodiments of the invention and by reference to the accompanying drawings, technical scheme of the present invention is further described, but the present invention be not limited to these embodiments.

As shown in Figures 1 to 4, this novel battery hypanthium arranging-in-row device comprises plummer 10 and is arranged on the guipure 20 on plummer 10, guipure 20 is placed with multiple battery hypanthium 30, plummer 10 is provided with the main transporting chain plate 41 being in same level with guipure 20, main transporting chain plate 41 communicates with guipure 20 and arranges in angle, and main transporting chain plate 41 only can hold a row battery hypanthium 30 to be passed through.

Preferably, all battery can be inserted with in each battery hypanthium 30.That is to say that when being inserted with battery in battery hypanthium 30, this case can realize the permutation of battery; When battery hypanthium 30 is in sky hypanthium state, this case can realize the permutation of battery hypanthium 30.

Preferably, the first transporting chain plate 42 and the first baffle plate 51 is provided with between main transporting chain plate 41 and guipure 20, first transporting chain plate 42 is in same level with main transporting chain plate 41, first transporting chain plate 42 respectively with guipure 20, main transporting chain plate 41 communicates, the throughput direction of the first transporting chain plate 42 is identical with the throughput direction of main transporting chain plate 41, the delivery speed of main transporting chain plate 41 is greater than the delivery speed of the first transporting chain plate 42, the delivery speed of the first transporting chain plate 42 is greater than the delivery speed of guipure 20, the head end of the first baffle plate 51 is resisted against on the lateral wall of guipure 20, the end of the first baffle plate 51 is resisted against on the lateral wall of main transporting chain plate 41.

Further preferably, the first transporting chain plate 42 also can require to be designed to the sub-transporting chain plate of multiple tracks according to difference, and see along guipure 20 to main transporting chain plate 41 direction, the speed of each line transporting chain plate is accelerated gradually.

Preferably, plummer 10 is provided with to be in same level with main transporting chain plate 41 return transporting chain plate 43, main transporting chain plate 41 is at the first transporting chain plate 42 and return between transporting chain plate 43, return transporting chain plate 43 to communicate with main transporting chain plate 41, the throughput direction returning transporting chain plate 43 is contrary with the throughput direction of main transporting chain plate 41, and the delivery speed returning transporting chain plate 43 is identical with the delivery speed of main transporting chain plate 41.If main transporting chain plate 41 has unnecessary battery hypanthium 30, exceed single-row quantity and main transporting chain plate 41 has little time to take away, now, the redundant cell hypanthium 30 exceeded will be returned transporting chain plate 43 and be taken away towards the direction contrary with the throughput direction of main transporting chain plate 41, improves permutation efficiency.

Preferably, the second transporting chain plate 44 being in same level with main transporting chain plate 41 is provided with between guipure 20 and the first transporting chain plate 42, second transporting chain plate 44 communicates with guipure 20, first transporting chain plate 42 respectively, the throughput direction of the second transporting chain plate 44 is identical with the throughput direction of main transporting chain plate 41, the delivery speed of the first transporting chain plate 42 is greater than the delivery speed of the second transporting chain plate 44, and the delivery speed of the second transporting chain plate 44 is more than or equal to the delivery speed of guipure 20.

Further preferably, the second transporting chain plate 44 also can require to be designed to the sub-transporting chain plate of multiple tracks according to difference, and see along guipure 20 to main transporting chain plate 41 direction, the speed of each line transporting chain plate is accelerated gradually.

Multiple battery hypanthium 30 is arranged with compared with on the guipure 20 of jogging speed, by adopting the transporting chain plate that multiple speed is different, the upper surface of each transporting chain plate is conveyor surface, battery hypanthium 30 is assigned on the transporting chain plate of fast speed from the guipure 20 compared with jogging speed by the first baffle plate 51 gradually, transporting chain plate speed is faster, and battery hypanthium 30 quantity is above fewer.

Preferably, plummer 10 is provided with the second baffle 52 run through by the first transporting chain plate 42, second baffle 52 can do linear reciprocating motion along the throughput direction of the first transporting chain plate 42, when second baffle 52 moves to the proximal most position of distance the first baffle plate 51, the gap between second baffle 52 and the first baffle plate 51 only can hold a battery hypanthium 30 and pass through.

After battery hypanthium 30 unordered on guipure 20 is carried the first transporting chain plate 42 by the second transporting chain plate 44, first transporting chain plate 42 is during being transported to main transporting chain plate 41 by battery hypanthium 30, second baffle 52 constantly moves reciprocatingly, gap between first baffle plate 51 and second baffle 52 is constantly changed, thus battery hypanthium 30 quantity entered on main transporting chain plate 41 by the first transporting chain plate 42 is constantly changed, battery hypanthium 30 does not need to try to be the first and enters main transporting chain plate 41, be not easy to form blocking phenomenon, simultaneously, during battery hypanthium 30 enters into main transporting chain plate 41 by the first transporting chain plate 42, battery hypanthium 30 enters all in an orderly manner, can not produce between battery hypanthium 30 and battery hypanthium 30 and collide and friction phenomenon, the retention problems produced when also solving battery hypanthium 30 permutation, noise is little and permutation efficiency is higher.

Preferably, plummer 10 is provided with is horizontally disposed with and the rotating disk 60 tangent with main transporting chain plate 41.The material of rotating disk 60 may be selected to be high-quality nylon material, and the rotating disk 60 of high-quality nylon material has the advantages such as wear-resisting, easy processing.

According to actual needs, rotating disk 60 can install absorbent module additional, when a row battery hypanthium 30 arrives position near rotating disk 60 lateral wall by main transporting chain plate 41, can be adsorbed by rotating disk 60 and be transported to the charging port of next equipment.Because the gap between the adjacent two battery hypanthiums 30 that main transporting chain plate 41 transports out is uneven, preferably, adsorption selection assembly is be evenly distributed on the magnet on rotating disk 60 lateral wall, the material of corresponding battery hypanthium 30 is inner iron-bearing materials, gap between the adjacent two battery hypanthiums 30 transported out by rotating disk 60 is like this equal, and work efficiency is high.

In addition, by changing the absorbent module on rotating disk 60, such as by adopting bar magnet etc., by by absorption with do not distinguished according to two kinds of different prerequisite for dischargings by the battery that adsorbs, also can realize the effect of row battery hypanthium 30 apportion on main transporting chain plate 41, and can according to different demands allotment absorption, not by the position of adsorbing, can realize again a row arrangement when absorbent module is not opened or all opened, commonality is wide.

Preferably, plummer 10 is also provided with the 3rd transporting chain plate 45 battery hypanthium 30 on main transporting chain plate 41 being flowed to next process, 3rd transporting chain plate 45 is with main transporting chain plate 41 size, delivery speed is all equal and throughput direction is contrary, and rotating disk 60 is arranged between main transporting chain plate 41 and the 3rd transporting chain plate 45.Setting up the 3rd transporting chain plate 45 can facilitate workman to differentiate substandard products on equipment limit, is abandoned by substandard products in time or reclaims, simple and practical.

Preferably, plummer 10 is provided with third gear plate 53 and rear baffle 54, third gear plate 53 comprises the first stop part 531 be connected as a single entity, second stop part 532 and the 3rd stop part 533, second stop part 532 is between the first stop part 531 and the 3rd stop part 533, rear baffle 54 comprises the Anti-fall portion 541 and side portion 542 that are connected as a single entity, return transporting chain plate 43 between the 3rd stop part 533 and Anti-fall portion 541, second transporting chain plate 44 is between the first stop part 531 and guipure 20, second baffle 52 is between the first baffle plate 51 and the second stop part 532.Define a backward channel between third gear plate 53 and rear baffle 54, returned the redundant cell hypanthium 30 that transporting chain plate 43 takes away and turn back on the second transporting chain plate 44 by backward channel, again repeat permutation process, improve permutation efficiency.

Preferably, battery hypanthium 30 profile is cylindrical, and structure is simple, convenient production and processing.

This novel battery hypanthium arranging-in-row device in an initial condition, unordered arranged together of battery hypanthium 30 on guipure 20, when battery hypanthium 30 arrives at the second transporting chain plate 44, battery hypanthium 30 enters on the second transporting chain plate 44 by guipure 20, due to the effect of carrying capacity, battery hypanthium 30 on second transporting chain plate 44 arrives the first baffle plate 51 position, along with adding up of time, battery hypanthium 30 number of the second transporting chain plate 44 and the first baffle plate 51 intersection constantly increases, now battery hypanthium 30 is slowly close towards the first transporting chain plate 42 direction, when battery hypanthium 30 touches the first transporting chain plate 42, delivery speed due to the first transporting chain plate 42 is greater than the delivery speed of the second transporting chain plate 44, battery hypanthium 30 has been assigned to the first transporting chain plate 42 from the second transporting chain plate 44, by that analogy, battery hypanthium 30 has been assigned to main transporting chain plate 41 from the first transporting chain plate 42 again, battery hypanthium 30 unnecessary on main transporting chain plate 41 is returned transporting chain plate 43 and is taken away, unnecessary battery hypanthium 30 is through the backward channel third gear plate 53 and rear baffle 54 and get back on the second transporting chain plate 44, again repeat above permutation process.

In addition, battery hypanthium 30 on the first transporting chain plate 42 to be assigned on the first transporting chain plate 42 in process, second baffle 52 constantly does linear reciprocating motion, gap between first baffle plate 51 and second baffle 52 is constantly changed, thus battery hypanthium 30 quantity entered on main transporting chain plate 41 is constantly changed, the battery hypanthium 30 be on the first transporting chain plate 42 is not blocked, the linear reciprocating motion of second baffle does not produce the extruding and friction that are added with to battery hypanthium, noise is little, battery hypanthium 30 is not easy overturning, battery hypanthium 30 itself is not easy wearing and tearing, the blockage problem controlling to produce when battery hypanthium 30 quantity entered on main transporting chain plate 41 also solves battery hypanthium 30 permutation simultaneously can not only be realized like this.

In sum, this novel battery hypanthium arranging-in-row device permutation does not have dead angle, not having battery tray cup 30 cannot permutation, first in first out can be realized, permutation efficiency is high and not by the dimensional restriction of traffic cycle in prior art, do not have the large noise of extruding mutually between battery hypanthium 30 when equipment runs, arranging-in-row device floor area is little, installation form is flexible, can according to the throughput direction of the flow arrangement battery hypanthium 30 of front and back.

Specific embodiment described herein is only to the explanation for example of the present invention's spirit.Those skilled in the art can make various amendment or supplement or adopt similar mode to substitute to described specific embodiment, but can't depart from spirit of the present invention or surmount the scope that appended claims defines.

Claims (8)

1. a battery tray alignment device, comprise plummer and be arranged on the guipure on plummer, described guipure is placed with some battery hypanthiums, it is characterized in that, described plummer is provided with the main transporting chain plate being in same level with guipure, described main transporting chain plate communicates with guipure and arranges in angle, and described main transporting chain plate only can hold a row battery hypanthium to be passed through, the first transporting chain plate and the first baffle plate is provided with between described main transporting chain plate and guipure, described first transporting chain plate and main transporting chain plate are in same level, described first transporting chain plate respectively with guipure, main transporting chain plate communicates, the throughput direction of described first transporting chain plate is identical with the throughput direction of main transporting chain plate, the delivery speed of described main transporting chain plate is greater than the delivery speed of the first transporting chain plate, the delivery speed of described first transporting chain plate is greater than the delivery speed of guipure, the head end of described first baffle plate is resisted against on the lateral wall of guipure, the end of the first baffle plate is resisted against on the lateral wall of main transporting chain plate, described plummer is provided with to be in same level with main transporting chain plate return transporting chain plate, described main transporting chain plate is at the first transporting chain plate and return between transporting chain plate, the described transporting chain plate that returns communicates with main transporting chain plate, the described throughput direction returning transporting chain plate is contrary with the throughput direction of main transporting chain plate, described in return the delivery speed of transporting chain plate identical with the delivery speed of main transporting chain plate.

2. a kind of battery tray alignment device according to claim 1, it is characterized in that, the second transporting chain plate being in same level with main transporting chain plate is provided with between described guipure and the first transporting chain plate, described second transporting chain plate communicates with guipure, the first transporting chain plate respectively, the throughput direction of described second transporting chain plate is identical with the throughput direction of main transporting chain plate, the delivery speed of described first transporting chain plate is greater than the delivery speed of the second transporting chain plate, and the delivery speed of described second transporting chain plate is more than or equal to the delivery speed of guipure.

3. a kind of battery tray alignment device according to claim 2, it is characterized in that, described plummer is provided with the second baffle run through by the first transporting chain plate, described second baffle can do linear reciprocating motion along the throughput direction of the first transporting chain plate, when second baffle moves to the proximal most position of distance the first baffle plate, the gap between second baffle and the first baffle plate only can hold a battery hypanthium and pass through.

4. a kind of battery tray alignment device according to claim 1, is characterized in that, described plummer is provided with and is horizontally disposed with and the rotating disk tangent with main transporting chain plate.

5. a kind of battery tray alignment device according to claim 4, it is characterized in that, described plummer is also provided with the 3rd transporting chain plate battery hypanthium on described main transporting chain plate being flowed to next process, described rotating disk is arranged between main transporting chain plate and the 3rd transporting chain plate.

6. a kind of battery tray alignment device according to claim 5, is characterized in that, described 3rd transporting chain plate is with main transporting chain plate size, delivery speed is all equal and throughput direction is contrary.

7. a kind of battery tray alignment device according to claim 3, it is characterized in that, described plummer is provided with third gear plate and rear baffle, backward channel is formed between described third gear plate and rear baffle, described third gear plate comprises the first stop part be connected as a single entity, second stop part and the 3rd stop part, described second stop part is between the first stop part and the 3rd stop part, described rear baffle comprises the Anti-fall portion and side portion that are connected as a single entity, the described transporting chain plate that returns is between the 3rd stop part and Anti-fall portion, described second transporting chain plate is between the first stop part and guipure, described second baffle is between the first baffle plate and the second stop part.

8. a kind of battery tray alignment device according to claim 1, is characterized in that, described battery hypanthium profile is cylindrical.