CN215098536U - Button cell washs sabot mechanism - Google Patents

Abstract

The utility model relates to a button cell washs sabot mechanism, including the battery transport assembly that transversely sets up, indulge the tray transport assembly who sets up in the output side of battery transport assembly, tray transport assembly is along vertically being equipped with tray material loading station, sabot station and tray unloading station in proper order, be equipped with battery moving mechanism between the output of sabot station and battery transport assembly; the upper side of tray unloading station is equipped with vertical unloading passageway, and the bottom of tray unloading station is equipped with and is used for upwards pushing up the liftable liftout board in the vertical unloading passageway with installing button cell's tray. The utility model relates to a rationally, the button cell after the washing can carry out the sabot automatically, and the battery tray also automatic upper and lower unloading effectively liberates manual operation simultaneously, improves sabot efficiency.

Description

Button cell washs sabot mechanism

The technical field is as follows:

the utility model relates to a button cell washs sabot mechanism.

Background art:

after the button cell is produced, the button cell needs to be cleaned firstly and then can be arranged in the cell tray. In the prior art, the button cell is usually manually coiled after being cleaned, so that the operation is inconvenient, the labor cost is increased, and the efficiency is low.

The utility model has the following contents:

the utility model discloses make the improvement to the problem that above-mentioned prior art exists, promptly the utility model aims to solve the technical problem that a button cell washs sabot mechanism is provided, not only reasonable in design, it is high-efficient convenient moreover.

In order to realize the purpose, the utility model discloses a technical scheme is: a button battery cleaning and tray loading mechanism comprises a battery conveying assembly and a tray conveying assembly, wherein the battery conveying assembly is transversely arranged, the tray conveying assembly is longitudinally arranged beside the output end of the battery conveying assembly, the tray conveying assembly is sequentially provided with a tray feeding station, a tray loading station and a tray discharging station along the longitudinal direction, and a battery moving mechanism is arranged between the tray loading station and the output end of the battery conveying assembly; the upper side of tray unloading station is equipped with vertical unloading passageway, and the bottom of tray unloading station is equipped with and is used for upwards pushing up the liftable liftout board in the vertical unloading passageway with installing button cell's tray.

Furthermore, the battery conveying assembly comprises a transversely arranged battery conveying belt, and a battery stop block used for stopping the button battery from moving is arranged at the output end of the battery conveying belt.

Furthermore, the battery moving mechanism comprises a first transverse electric guide rail, a first lifting seat plate, a first lifting cylinder and a plurality of battery adsorption nozzles, the first lifting seat plate is positioned on the upper side of the output end of the battery conveying belt, the front end of the first lifting seat plate is fixedly connected with a plurality of battery adsorption nozzles which are uniformly distributed at intervals along the transverse direction and used for adsorbing button batteries, and the rear end of the first lifting seat plate is fixedly connected with a cylinder rod of the first lifting cylinder which is vertically arranged; the first transverse electric guide rail is arranged at the side between the tray loading station and the output end of the battery conveying belt, and the first lifting cylinder is arranged at the sliding part of the first transverse electric guide rail.

Furthermore, the tray conveying assembly comprises a supporting plate and two tray conveying belts, the supporting plate is longitudinally arranged, the two tray conveying belts are symmetrically arranged on the left side and the right side of the supporting plate, a plurality of tray pushing blocks are uniformly distributed on the periphery of the tray conveying belt at intervals, and the tray pushing blocks corresponding to the upper positions of the two tray conveying belts jointly push the battery tray to move longitudinally on the supporting plate.

Furthermore, the supporting plate is provided with a vertical through hole which is favorable for the ejector plate to run through along the vertical direction at the position of the tray blanking station, the vertical through hole and the ejector plate are rectangular, and the ejector plate is driven to lift by an ejector cylinder positioned on the lower side of the ejector plate.

Furthermore, the vertical blanking channel comprises four vertical supporting rods which are distributed in a rectangular shape and are positioned outside the vertical through holes, the cross section of each vertical supporting rod is L-shaped, a vertical long groove is formed in the lower end of the longitudinal edge of each vertical supporting rod, the lower end of each vertical long groove is rotatably connected with a swinging support block which is used for being supported at the bottom of the battery tray, a limiting top block which is used for supporting the bottom of the swinging support block is arranged at the inner side end of the bottom of each vertical long groove, and a rotating limiting rod which is used for limiting the swinging support block when the swinging support block rotates upwards is arranged at the upper end of each vertical long groove.

Furthermore, the lower ends of the two vertical supporting rods close to the tray loading station are provided with avoidance notches which are beneficial for the battery tray to pass through.

Further, a tray feeding channel is vertically arranged beside the tray feeding station, a tray moving mechanism is arranged between the tray feeding channel and the tray feeding station, a tray top plate is horizontally arranged in the tray feeding channel, and the tray top plate is driven to lift by a jacking cylinder.

Furthermore, the tray moving mechanism comprises a second transverse electric guide rail, a second lifting seat plate, a second lifting cylinder and a plurality of tray adsorption nozzles, the second lifting seat plate is positioned at the upper side of the tray feeding channel, the rear end of the second lifting seat plate is fixedly connected with a plurality of tray adsorption nozzles which are distributed in an annular shape and used for adsorbing the battery tray, and the front end of the second lifting seat plate is fixedly connected with a cylinder rod of the second lifting cylinder which is vertically arranged; the second transverse electric guide rail is arranged at the side between the tray feeding channel and the tray feeding station, and the second lifting cylinder is arranged at the sliding part of the second transverse electric guide rail.

Compared with the prior art, the utility model discloses following effect has: the utility model relates to a rationally, the button cell after the washing can carry out the sabot automatically, and the battery tray also automatic upper and lower unloading effectively liberates manual operation simultaneously, improves sabot efficiency.

Description of the drawings:

fig. 1 is a schematic top view of an embodiment of the present invention;

fig. 2 is a schematic front view of the embodiment of the present invention;

FIG. 3 is a schematic sectional view taken along line B-B in FIG. 1;

fig. 4 is a schematic cross-sectional view of C-C in fig. 1.

The specific implementation mode is as follows:

the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description of the present invention, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

As shown in fig. 1 to 4, the utility model relates to a button cell cleaning and tray loading mechanism, including a transversely arranged cell conveying assembly 23, a tray conveying assembly 24 longitudinally arranged beside the output end of the cell conveying assembly 23, the tray conveying assembly 24 is longitudinally and sequentially provided with a tray loading station 25, a tray loading station 26 and a tray unloading station 27, and a cell moving mechanism is arranged between the tray loading station 26 and the output end of the cell conveying assembly 23; the upper side of the tray blanking station 27 is provided with a vertical blanking channel 28, and the bottom of the tray blanking station 28 is provided with a liftable ejector plate 29 for ejecting a battery tray 31 provided with a button battery upwards into the vertical blanking channel 28. During operation, the washed button cell 30 is in a horizontal state, and transversely convey along the battery conveying assembly 23, tray material loading station 25 is used for placing empty battery tray 31, tray conveying assembly 24 conveys the battery tray on tray material loading station 25 to tray loading station 26 in proper order, tray unloading station 27, battery moving mechanism moves the button cell 30 at the output end of battery conveying assembly 23 to the inside of battery tray 31 at tray loading station 26, battery tray 31 at tray loading station 26 is installed with the button cell and then is conveyed to tray unloading station 27, liftable liftout plate 29 upwards pushes up the battery tray 31 in tray unloading station 27 into vertical unloading channel 28.

In this embodiment, the battery conveying assembly 23 includes a transversely disposed battery conveying belt 32, and a battery stopper 33 for stopping the movement of the button battery is disposed at an output end of the battery conveying belt 32. Due to the blocking effect of the battery stop block, the button batteries at the output end of the conveying belt cannot continuously move and can be next to each other one by one, so that the button batteries are arranged side by side, and the subsequent quick tray filling operation is convenient.

In this embodiment, the battery moving mechanism includes a first horizontal electric guide rail 34, a first lifting seat plate 35, a first lifting cylinder 36 and a plurality of battery adsorption nozzles 37, the first lifting seat plate 35 is located on the upper side of the output end of the battery conveying belt 32, the front end of the first lifting seat plate 35 is fixedly connected with a plurality of battery adsorption nozzles 37 which are uniformly distributed along the horizontal direction at intervals and used for adsorbing button batteries, and the rear end of the first lifting seat plate 35 is fixedly connected with a cylinder rod of the first lifting cylinder 36 which is vertically arranged; the first transverse electric guide rail 34 is arranged at the side between the tray loading station 26 and the output end of the battery conveying belt 32, and the first lifting cylinder 36 is arranged at the sliding part of the first transverse electric guide rail 34. First horizontal electric rail drive first lift cylinder and first lift bedplate are along lateral shifting for install the battery adsorption nozzle at first lift bedplate and remove between the sabot station at battery conveyor belt's output, first lift cylinder drives battery adsorption nozzle through first lift bedplate along vertical lift.

In this embodiment, the tray conveying assembly 34 includes a supporting support plate 38 and two tray conveying belts 39, the supporting support plate 38 is disposed in a longitudinal direction, the two tray conveying belts 39 are symmetrically disposed on the left side and the right side of the supporting support plate 38, a plurality of tray pushing blocks 40 are uniformly distributed on the outer peripheral side of the tray conveying belts 39 at intervals, and the tray pushing blocks 40 corresponding to the two tray conveying belts 39 in position push the battery tray 31 to move on the supporting support plate 38 along the longitudinal direction. During operation, the battery tray is placed on the supporting plate, the tray conveying belts on the two sides of the supporting plate rotate, and the tray push blocks corresponding to the two tray conveying belts in position push the battery tray to move on the supporting plate along the longitudinal direction.

In this embodiment, the supporting plate 38 is provided with a vertical through hole 41 at the tray discharging station 27 so as to facilitate the vertical penetration of the ejector plate 29, the vertical through hole and the ejector plate are rectangular, and the ejector plate is driven to lift by an ejector cylinder 42 located at the lower side of the ejector plate.

In this embodiment, the vertical discharging channel 28 includes four vertical support rods 43 which are distributed in a rectangular shape and located outside the vertical through holes, the cross section of each vertical support rod 43 is L-shaped, a vertical long groove 44 is formed at the lower end of the longitudinal edge of each vertical support rod 43, the lower end of each vertical long groove 44 is rotatably connected with a swinging support block 45 which is supported at the bottom of the battery tray 31, a limiting top block 46 which is supported at the bottom of the swinging support block 45 is arranged at the inner side end of the bottom of each vertical long groove 44, and a rotation limiting rod 47 which is used for limiting the swinging support block to rotate upwards is arranged at the upper end of each vertical long groove 44. When the ejector plate pushes the battery tray at the tray discharging station to move upwards, the battery tray pushes the swinging support block to swing upwards until the battery tray is positioned above the swinging support block, then the ejector plate moves downwards, the bottom of the battery tray pushes the swinging support block to swing downwards to be in contact with the limiting ejector block, the swinging support block carries out stable support on all the battery trays above the swinging support block at the moment, the action is repeated, and the ejector plate pushes the next battery tray into the vertical discharging channel.

In this embodiment, the lower ends of the two vertical support rods close to the tray loading station 26 are provided with the avoidance notches 48 which are beneficial for the battery tray to pass through, so that the tray conveying belt can push the battery tray to enter the inner lower part of the vertical blanking channel.

In this embodiment, the side of tray material loading station 25 erects and is equipped with tray material loading passageway 49, be equipped with tray moving mechanism between tray material loading passageway 49 and tray material loading station 25, the level is equipped with tray roof 50 in the tray material loading passageway, the tray roof is gone up and down by jacking cylinder drive.

In this embodiment, the tray moving mechanism includes a second transverse electric guide rail 51, a second lifting seat plate 52, a second lifting cylinder 53 and a plurality of tray adsorption nozzles 54, the second lifting seat plate 52 is located on the upper side of the tray feeding channel 49, the rear end of the second lifting seat plate 52 is fixedly connected with a plurality of tray adsorption nozzles 54 which are distributed annularly and used for adsorbing the battery tray, and the front end of the second lifting seat plate 52 is fixedly connected with a cylinder rod of the second lifting cylinder 53 which is vertically arranged; the second transverse electric guide rail 51 is arranged at the side between the tray feeding channel 49 and the tray feeding station 25, and the second lifting cylinder 53 is arranged at the sliding part of the second transverse electric guide rail 51. The second transverse electric guide rail drives the second lifting cylinder, the second lifting base plate and the tray adsorption nozzle to move transversely, and the second lifting cylinder drives the tray adsorption nozzle to move vertically through the second lifting base plate so as to absorb or place the battery tray in the hole.

In this embodiment, during operation: (1) the second lifting cylinder 53 drives the tray adsorption nozzle 54 to move downwards through the second lifting seat plate 52, the battery tray 31 on the uppermost layer is adsorbed from the tray feeding channel 49, then the second lifting cylinder 53 drives the tray adsorption nozzle 54 to reset upwards, the second transverse electric guide rail 51 drives the second lifting cylinder 53, the second lifting seat plate 52 and the tray adsorption nozzle 54 to move transversely along the tray feeding station 25, then the second lifting cylinder 53 drives the tray adsorption nozzle 54 to move downwards through the second lifting seat plate 52, the tray adsorption nozzle 54 releases the battery tray, and the battery tray falls on the tray feeding station 25; (2) the tray push blocks 40 on the two tray conveying belts 39, which correspond to each other in position, jointly push the battery tray 31 to move longitudinally on the support supporting plate 38 to the tray loading station 26, the first transverse electric guide rail 34 drives the first lifting cylinder 36 and the first lifting seat plate 35 to move transversely, and the battery adsorption nozzle 37 adsorbs the button battery at the output end of the battery conveying belt 32 to the battery tray on the tray loading station 26; (3) after the battery tray of the tray loading station 26 is filled with button batteries, the two tray conveying belts 39 push the battery tray to move to the tray blanking station 27 through the tray pushing block 40; (4) ejector plate 29 rebound, ejector plate 29 promotes the battery tray rebound of tray unloading station 27 department, and the battery tray promotes to pendulum and changes tray 45 and upwards pendulum and change, and until the battery tray is located the top of pendulum and change tray 45, later ejector plate 29 rebound, the bottom of battery tray promotes to pendulum and changes tray 45 and downwards swing to contacting with spacing ejector block 46, and the saddle that pendulum changes this moment carries out the stable support to all battery trays above it, repeats this action, and the ejector plate pushes up next battery tray into in the vertical unloading passageway.

The utility model discloses if disclose or related to mutual fixed connection's spare part or structure, then, except that other the note, fixed connection can understand: a detachable fixed connection (for example using bolts or screws) is also understood as: non-detachable fixed connections (e.g. riveting, welding), but of course, fixed connections to each other may also be replaced by one-piece structures (e.g. manufactured integrally using a casting process) (unless it is obviously impossible to use an integral forming process).

In addition, the terms used in any aspect of the present disclosure as described above to indicate positional relationships or shapes include similar, analogous, or approximate states or shapes unless otherwise stated.

The utility model provides an arbitrary part both can be assembled by a plurality of solitary component parts and form, also can be the solitary part that the integrated into one piece technology was made.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention and not to limit it; although the present invention has been described in detail with reference to preferred embodiments, it should be understood by those skilled in the art that: the invention can be modified or equivalent substituted for some technical features; without departing from the spirit of the present invention, it should be understood that the scope of the claims is intended to cover all such modifications and variations.

Claims (9)

1. The utility model provides a button cell washs sabot mechanism which characterized in that: the battery tray conveying device comprises a battery conveying assembly and a tray conveying assembly, wherein the battery conveying assembly is transversely arranged, the tray conveying assembly is longitudinally arranged beside the output end of the battery conveying assembly, the tray conveying assembly is sequentially provided with a tray loading station, a tray loading station and a tray discharging station along the longitudinal direction, and a battery moving mechanism is arranged between the tray loading station and the output end of the battery conveying assembly; the upper side of tray unloading station is equipped with vertical unloading passageway, and the bottom of tray unloading station is equipped with and is used for upwards pushing up the liftable liftout board in the vertical unloading passageway with installing button cell's tray.

2. The button cell cleaning and dishing mechanism of claim 1, characterized in that: the battery conveying assembly comprises a battery conveying belt which is transversely arranged, and a battery stop block used for stopping the button battery from moving is arranged at the output end of the battery conveying belt.

3. The button cell cleaning and dishing mechanism of claim 2, characterized in that: the battery moving mechanism comprises a first transverse electric guide rail, a first lifting seat plate, a first lifting cylinder and a plurality of battery adsorption nozzles, the first lifting seat plate is positioned on the upper side of the output end of the battery conveying belt, the front end of the first lifting seat plate is fixedly connected with a plurality of battery adsorption nozzles which are uniformly distributed at intervals along the transverse direction and used for adsorbing button batteries, and the rear end of the first lifting seat plate is fixedly connected with a cylinder rod of the first lifting cylinder which is vertically arranged; the first transverse electric guide rail is arranged at the side between the tray loading station and the output end of the battery conveying belt, and the first lifting cylinder is arranged at the sliding part of the first transverse electric guide rail.

4. The button cell cleaning and dishing mechanism of claim 1, characterized in that: the tray conveying assembly comprises a supporting plate and two tray conveying belts, the supporting plate is longitudinally arranged, the tray conveying belts are symmetrically arranged on the left side and the right side of the supporting plate, a plurality of tray pushing blocks are uniformly distributed on the periphery of each tray conveying belt at intervals, and the tray pushing blocks corresponding to the upper positions of the two tray conveying belts jointly push the battery tray to move longitudinally on the supporting plate.

5. The button cell cleaning and dishing mechanism of claim 4, characterized in that: the supporting plate is provided with a vertical through hole which is beneficial to the ejection plate to run through along the vertical direction at the position of the tray discharging station, the vertical through hole and the ejection plate are rectangular, and the ejection plate is driven to lift by an ejection cylinder positioned on the lower side of the ejection plate.

6. The button cell cleaning and dishing mechanism of claim 5, characterized in that: the vertical blanking channel comprises four vertical supporting rods which are distributed in a rectangular shape and located on the outer sides of the vertical through holes, the cross sections of the vertical supporting rods are L-shaped, vertical long grooves are formed in the lower ends of the longitudinal edges of the vertical supporting rods, the lower ends of the vertical long grooves are rotatably connected with swing supporting blocks used for supporting the bottoms of the battery trays, limiting top blocks used for supporting the bottoms of the swing supporting blocks are arranged at the inner side ends of the bottoms of the vertical long grooves, and rotating limiting rods used for limiting the swing supporting blocks to rotate upwards are arranged at the upper ends of the vertical long grooves.

7. The button cell cleaning and dishing mechanism of claim 6, characterized in that: the lower ends of the two vertical supporting rods close to the tray loading station are provided with avoidance notches which are beneficial for the battery tray to pass through.

8. The button cell cleaning and dishing mechanism of claim 1, characterized in that: the tray loading station is characterized in that a tray loading channel is vertically arranged beside the tray loading station, a tray moving mechanism is arranged between the tray loading channel and the tray loading station, a tray top plate is horizontally arranged in the tray loading channel, and the tray top plate is driven to lift by a jacking cylinder.

9. The button cell cleaning and dishing mechanism of claim 8, wherein: the tray moving mechanism comprises a second transverse electric guide rail, a second lifting seat plate, a second lifting cylinder and a plurality of tray adsorption nozzles, the second lifting seat plate is positioned at the upper side of the tray feeding channel, the rear end of the second lifting seat plate is fixedly connected with a plurality of tray adsorption nozzles which are distributed annularly and used for adsorbing a battery tray, and the front end of the second lifting seat plate is fixedly connected with a cylinder rod of the second lifting cylinder which is vertically arranged; the second transverse electric guide rail is arranged at the side between the tray feeding channel and the tray feeding station, and the second lifting cylinder is arranged at the sliding part of the second transverse electric guide rail.

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