CN218579014U - Battery material loading sequencing device - Google Patents

Abstract

The utility model discloses a battery material loading sequencing unit relates to battery processing technology field. The utility model provides a battery material loading sequencing unit, includes the support and puts material platform, conveyer, first actuating mechanism, battery transport mechanism, battery sequencing mechanism, second actuating mechanism. The first driving mechanism comprises an electric sliding rail, a moving block, a first electric cylinder and a traction frame. The battery transfer mechanism comprises a transfer plate, a second electric cylinder arranged on the traction frame through a fixing frame, an electromagnetic adsorption plate fixedly arranged at the piston shaft end of the second electric cylinder, and a vacuum chuck fixedly arranged on one side of the transfer plate. The utility model is convenient for the automatic material removal of the charging tray for the battery and the charging of the battery, and aims to realize the automatic charging and discharging of the battery and the charging tray, thereby improving the efficiency of the charging and transmission of the battery; meanwhile, the purpose of realizing automatic sequencing of battery transmission is achieved, and the efficiency of subsequent battery processing and use is improved.

Description

Battery material loading sequencing device

Technical Field

The utility model belongs to the technical field of battery processing, especially, relate to a battery material loading sequencing unit.

Background

In the production of a remote controller pipeline, a battery for the remote controller is an important component part. At present, in the production operation of assembling batteries by a remote controller, the batteries are often manually taken out from a material tray and placed on a transmission device for flow process, and the batteries placed on the transmission device have the problem of low ordering uniformity when being fed to other processing procedure positions due to manual placement, so that the efficiency of subsequent battery circulation processing is influenced; meanwhile, in the process of manually taking out the battery from the material tray, the battery needs to be frequently loaded and the material tray needs to be unloaded.

Therefore, the efficiency of the current battery loading operation is low, the complexity of the battery loading operation is high, the labor cost is increased, and meanwhile, the production efficiency of enterprises is reduced, so that the requirement of battery assembly line operation cannot be met.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a battery material loading sequencing unit through first actuating mechanism, battery transport mechanism, battery sequencing structure and second actuating mechanism, has promoted the efficiency of unloading on battery and the charging tray, simultaneously, has satisfied the automatic sequencing of battery material loading, has solved current problem.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

a battery charge sequencing device, comprising:

the battery conveying device comprises a bracket, a conveying device and a battery conveying device, wherein a material placing platform is fixedly arranged on the bracket, and a conveyor for conveying batteries is arranged on one side of the bracket; the material placing platform is used for placing a battery with a material tray;

a first drive mechanism provided on the carriage; the first driving mechanism comprises an electric slide rail, a moving block fixedly arranged on a slide block of the electric slide rail, a first electric cylinder fixedly arranged on the moving block, and a traction frame fixedly arranged at the end of a piston shaft of the first electric cylinder;

the battery transferring mechanism is fixedly arranged at the bottom end of the traction frame; the battery transferring mechanism comprises a transferring plate, a second electric cylinder, an electromagnetic adsorption plate and a vacuum chuck, wherein the fixing frame is arranged on the traction frame, the electromagnetic adsorption plate is fixedly arranged at the end of a piston shaft of the second electric cylinder, and the vacuum chuck is fixedly arranged on one side of the transferring plate; the electromagnetic adsorption plate is used for adsorbing the battery in the material placing platform; the vacuum chuck is used for adsorbing a material tray in the material placing platform;

the battery sequencing mechanism is arranged on the rack of the conveyor; the battery sorting mechanism is used for sorting the batteries on the conveyor;

and the second driving mechanism provides telescopic power for the battery sorting mechanism for sorting the batteries on the conveyor.

Furthermore, an upright post is fixedly installed between the moving block and the first electric cylinder.

Further, the conveyer is used for receiving the battery adsorbed by the electromagnetic adsorption plate.

Furthermore, the battery sequencing mechanism comprises a flat plate, a guide chute, a discharge chute, a pair of rails and a sequencing push plate, wherein the guide chute and the discharge chute are arranged on the lower surface of the flat plate and are communicated, the rails are fixedly arranged on one side of the flat plate and correspond to the outer side of the discharge chute, and the sequencing push plate is movably arranged on the inner side of the guide chute.

Further, the second driving mechanism comprises a third electric cylinder fixedly arranged on the upper surface of the flat plate and an L-shaped push plate fixedly arranged on a piston end shaft of the third electric cylinder; the L-shaped push plate is fixedly arranged on one side of the sequencing push plate.

Furthermore, the lower surface of the flat plate is provided with a telescopic groove used for the L-shaped push plate to stretch, and the telescopic groove is communicated with the guide chute.

The utility model discloses following beneficial effect has:

1. the utility model discloses a set up a actuating mechanism and battery transport mechanism, the material loading of material and battery is removed in the automation of the charging tray for the battery of being convenient for to realize battery and charging tray automatic upper and lower for the purpose, improve the efficiency of battery material loading transmission, solved the artifical loaded down with trivial details nature of taking out the battery material loading from the charging tray.

2. The utility model discloses a set up battery sequencing mechanism and second actuating mechanism, it has ensured the regularity of transmission battery material loading on the conveyer to realize that battery transmission automatic sequencing is the purpose, improve the efficiency that follow-up battery processing used.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, it is obvious that the drawings in the description below are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a diagram illustrating a turning over of the battery sorting mechanism and the second driving mechanism of fig. 1 according to the present invention;

fig. 3 is a schematic view illustrating the connection between the sorting push plate and the L-shaped push plate in fig. 2 according to the present invention.

In the drawings, the reference numbers indicate the following list of parts:

1. a support; 11. a material placing platform; 2. a conveyor; 3. a first drive mechanism; 31. an electric slide rail; 32. a moving block; 33. a first electric cylinder; 34. a traction frame; 4. a battery transfer mechanism; 41. a transfer plate; 42. a second electric cylinder; 43. an electromagnetic adsorption plate; 44. a vacuum chuck; 5. a battery sorting mechanism; 51. a flat plate; 52. a material guide chute; 53. a discharge chute; 54. a track; 55. a sequencing push plate; 6. a second drive mechanism; 61. a third electric cylinder; 62. an L-shaped push plate; 7. a column; 8. a telescopic groove.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-3, the present invention relates to a battery feeding and sorting device, which includes a support 1, a first driving mechanism 3, a battery transferring mechanism 4, a battery sorting mechanism 5, and a second driving mechanism 6.

A material placing platform 11 is fixedly arranged on the bracket 1, and the material placing platform 11 is used for placing a battery with a material tray; a conveyor 2 for battery transmission is arranged on one side of the bracket 1; the conveyor 2 is a belt conveyor.

The first driving mechanism 3 is arranged on the bracket 1; the first driving mechanism 3 comprises an electric slide rail 31, a moving block 32 fixedly arranged on a sliding block of the electric slide rail 31, a first electric cylinder 33 fixedly arranged on the moving block 32 and a traction frame 34 fixedly arranged at the piston shaft end of the first electric cylinder 33; the electric slide rail 31 in the first driving mechanism 3 can drive the first electric cylinder 33 to reciprocate linearly, and the first electric cylinder 33 can provide power for the longitudinal lifting of the traction frame 34.

The battery transfer mechanism 4 is fixedly arranged at the bottom end of the traction frame 34; the battery transfer mechanism 4 comprises a transfer plate 41, a second electric cylinder 42 fixed on the traction frame 34, an electromagnetic adsorption plate 43 fixedly arranged at the piston shaft end of the second electric cylinder 42, and a vacuum chuck 44 fixedly arranged at one side of the transfer plate 41; the electromagnetic adsorption plate 43 is used for adsorbing the battery in the material placing platform 11; the vacuum chucks 44 are used for adsorbing the material trays in the material placing platform 11, and the number of the vacuum chucks 44 is more than one; the electromagnetic adsorption plate 43 in this embodiment is a component that generates electromagnetism when energized, and can be externally connected with an electromagnetic controller to realize magnetization and demagnetization; the vacuum chuck 44 in this embodiment may be connected to an external conduit and an air pump, not shown, to satisfy the requirement of the vacuum chuck 44 to absorb the negative pressure of the battery tray.

The upright post 7 is fixedly arranged between the moving block 32 and the first electric cylinder 33; the first electric cylinder 33 fixedly mounted by the upright post 7 has a distance from the moving block 32 to satisfy the height distance for lifting the traction frame 34,

The conveyor 2 is used for receiving the battery adsorbed by the electromagnetic adsorption plate 43.

When the first driving mechanism 3 and the battery transfer mechanism 4 are used, a battery with a material tray can be placed on the material placing platform 11, when the electromagnetic adsorption plate 43 is positioned right above the material placing platform 11, the first electric cylinder 33 vertically drives the traction frame 34 to move downwards, meanwhile, the second electric cylinder 42 drives the electromagnetic adsorption plate 43 to vertically move, after the battery in the material tray is adsorbed on the lower surface of the transfer plate 41 by the electromagnetic adsorption plate 43, the first electric cylinder 33 is reset to the initial state, the electric slide rail 31 is used for transferring the electromagnetic adsorption plate 43 to a transmission belt of the conveyor 2, the first electric cylinder 33 drives the traction frame 34 to move downwards, and the battery can be loaded onto the conveyor 2 by controlling the demagnetization of the electromagnetic adsorption plate 43;

meanwhile, when the traction frame 34 moves downwards, the vacuum chuck 44 can be correspondingly arranged at the material placing platform 11 and is contacted with and adsorbed by the material tray for taking out the battery, and when the demagnetized electromagnetic adsorption plate 43 is reset to be right above the material placing platform 11, the vacuum chuck 44 adsorbs the material tray and can back to the material placing platform 11 and put down the material tray so as to avoid the material tray from being accumulated in the material placing platform 11 to influence the feeding of the battery; through the repeated operation, the continuous feeding of the battery can be met.

The battery sequencing mechanism 5 is arranged on the frame of the conveyor 2; the battery sorting mechanism 5 is used for sorting the batteries on the conveyor 2; the battery sequencing mechanism 5 comprises a flat plate 51, a material guide groove 52 and a material discharge groove 53 which are arranged on the lower surface of the flat plate 51 and communicated with each other, a pair of rails 54 which are fixedly arranged on one side of the flat plate 51 and correspond to the outer side of the material discharge groove 53, and a sequencing push plate 55 which is movably arranged on the inner side of the material guide groove 52; the discharge chute 53 provides a passage for one-by-one transmission of the batteries; the rail 54 is used for extending the batteries conveyed through the discharging chute 53 to other conveying equipment for processing; such as the fabrication of the assembly with the battery door; the sequencing push plate 55 in this embodiment is of a triangular configuration.

The second driving mechanism 6 provides telescopic power for the battery sorting mechanism 5 for sorting the batteries on the conveyor 2; the second driving mechanism 6 comprises a third electric cylinder 61 fixedly arranged on the upper surface of the flat plate 51 and an L-shaped push plate 62 fixedly arranged on the piston end shaft of the third electric cylinder 61; the L-shaped push plate 62 is fixedly installed at one side of the sorting push plate 55.

The lower surface of the flat plate 51 is provided with a telescopic chute 8 for the extension of the L-shaped push plate 62, and the telescopic chute 8 is communicated with the material guide chute 52.

When the battery sorting mechanism 5 and the second driving mechanism 6 are used, batteries conveyed on the conveyor 2 can enter through the material guide chute 52 in the flat plate 51, the batteries conveyed on the conveyor 2 move close to the material discharge chute 53 by utilizing the inclined surface of the sorting push plate 55, and under the action of the reciprocating movement of the sorting push plate 55 in the material guide chute 52 provided by the third electric cylinder 61, the sorting push plate 55 can shift and correct the batteries moved to the material discharge chute 53 from the material guide chute 52, so that the problem of blockage in battery conveying is avoided, and the batteries can be stably conveyed and sorted.

The above is only the preferred embodiment of the present invention, and the present invention is not limited thereto, and any modifications to the technical solutions recorded in the foregoing embodiments, and equivalent replacements to some of the technical features thereof, and any modifications, equivalent replacements, and improvements made belong to the protection scope of the present invention.

Claims (6)

1. The utility model provides a battery material loading sequencing unit which characterized in that includes:

the battery conveying device comprises a support (1), wherein a material placing platform (11) is fixedly mounted on the support (1), and a conveyor (2) for battery conveying is arranged on one side of the support (1); the material placing platform (11) is used for placing a battery with a material tray;

a first drive mechanism (3) provided on the carriage (1); the first driving mechanism (3) comprises an electric sliding rail (31), a moving block (32) fixedly installed on a sliding block of the electric sliding rail (31), a first electric cylinder (33) fixedly installed on the moving block (32), and a traction frame (34) fixedly installed at the piston shaft end of the first electric cylinder (33);

the battery transfer mechanism (4) is fixedly arranged at the bottom end of the traction frame (34); the battery transfer mechanism (4) comprises a transfer plate (41), a second electric cylinder (42) fixedly arranged on the traction frame (34), an electromagnetic adsorption plate (43) fixedly arranged at the piston shaft end of the second electric cylinder (42) and a vacuum chuck (44) fixedly arranged on one side of the transfer plate (41); the electromagnetic adsorption plate (43) is used for adsorbing the battery in the material placing platform (11); the vacuum chuck (44) is used for adsorbing a material tray in the material placing platform (11);

a battery sequencing mechanism (5) arranged on the frame of the conveyor (2); the battery sequencing mechanism (5) is used for sequencing the batteries on the conveyor (2);

a second drive mechanism (6) providing telescopic power to the battery sequencing mechanism (5) for sequencing batteries on the conveyor (2).

2. The battery feeding and sequencing device according to claim 1, wherein a vertical column (7) is fixedly arranged between the moving block (32) and the first electric cylinder (33).

3. A battery feeding and sorting device according to claim 1, wherein the conveyor (2) is adapted to receive the batteries adsorbed by the electromagnetic adsorption plate (43).

4. The battery feeding and sorting device according to claim 1, wherein the battery sorting mechanism (5) comprises a flat plate (51), a material guide chute (52) and a material discharge chute (53) which are arranged on the lower surface of the flat plate (51) and communicated with each other, a pair of rails (54) which are fixedly arranged on one side of the flat plate (51) and correspond to the outer side of the material discharge chute (53), and a sorting push plate (55) which is movably arranged on the inner side of the material guide chute (52).

5. A battery feeding and sequencing device as claimed in claim 4, characterized in that the second driving mechanism (6) comprises a third electric cylinder (61) fixedly mounted on the upper surface of the flat plate (51) and an L-shaped push plate (62) fixedly mounted on the piston end shaft of the third electric cylinder (61); the L-shaped push plate (62) is fixedly arranged on one side of the sequencing push plate (55).

6. The battery feeding and sequencing device of claim 5, wherein a telescopic groove (8) for extending and retracting the L-shaped push plate (62) is formed in the lower surface of the flat plate (51), and the telescopic groove (8) is communicated with the material guide groove (52).

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