CN219923730U - Button cell goes out water leakage screening mechanism - Google Patents

Abstract

The utility model discloses a button cell water outlet leakage screening mechanism, which comprises a machine table, wherein a relay stand for temporarily placing a cell panel is fixedly arranged at the top of the machine table, a transmission mechanism is arranged below the relay stand, the transmission mechanism comprises a pair of symmetrically arranged abutting rods which are used for abutting against the bottom of the cell panel, and the abutting rods and the relay stand are alternately abutted against the cell panel to realize the transportation and fixed-point placement of the cell panel; the utility model can carry the battery placing tray filled with the button battery integrally, and convey the battery placing tray filled with the button battery integrally to the optical detector for detection, and can detect the button battery of the whole tray integrally and convey the button battery integrally, thereby improving the detection efficiency; after the button cells are detected and transported out, the button cells are screened through the matching of the transportation jig and the optical detection lens; the utility model improves the overall efficiency of transportation and screening, and has the function of accommodating defective products.

Description

Button cell goes out water leakage screening mechanism

Technical Field

The utility model relates to the technical field related to button cell production equipment, in particular to a button cell water outlet and leakage screening mechanism.

Background

The existing button cell placement tray has the application number of 201711330888.5, the button cells are placed on one placement tray after being manufactured, and the button cells are required to be subjected to optical detection on the appearance, leakage and the like of the cells after being manufactured, for example, the leakage detection is carried out, and the image capturing can be carried out on a plurality of button cells in one area through one optical lens, so that the judgment and the screening are carried out; the detection and the transportation of the independent button cells are carried out through the common conveying belt, so that the detection efficiency is reduced, and meanwhile, the button cells still need to be separated from the tray when being placed on the conveying belt, so that the screening detection efficiency of the button cells is greatly reduced.

Disclosure of Invention

The utility model aims to provide a button cell water outlet leakage screening mechanism so as to overcome the defects in the prior art.

In order to achieve the above object, the present utility model provides the following technical solutions:

the button cell water outlet and leakage screening mechanism comprises a machine table, wherein a relay stand for temporarily placing a cell panel is fixedly arranged at the top of the machine table, a transmission mechanism is arranged below the relay stand, the transmission mechanism comprises a pair of symmetrically arranged abutting rods which are used for abutting against the bottom of the cell panel, and the abutting rods and the relay stand are alternately abutted against the cell panel to realize the transportation and fixed-point placement of the cell panel.

Further stated, the transmission mechanism comprises a sliding plate, a linear air cylinder, a pair of lifting air cylinders and a linear guide rail fixedly arranged at the top of the machine table, the sliding plate is slidably arranged at the top of the machine table through the linear guide rail, the lifting air cylinders are respectively fixedly arranged at two ends of the sliding plate, the supporting rods are fixedly connected with the output ends of the lifting air cylinders, the linear air cylinders are fixedly arranged on one side of the machine table, and the output ends of the linear air cylinders are fixedly connected with the sliding plate.

Further stated, the linear cylinder is used to control the sliding plate to reciprocate horizontally on the machine.

The relay rack comprises a stand column, a relay plate, a framework cross bar and cross bars symmetrically distributed, wherein the stand column is fixedly arranged on the machine, the cross bars are fixedly connected with the top of the stand column, two ends of the framework cross bar extend upwards to a certain height and are respectively fixedly connected with the cross bars, the relay plate is fixedly connected with the middle of the framework cross bar, a sliding gap is preset between the relay plate and the cross bars, and the butt joint bars are positioned in the sliding gap and are not in contact with the relay plate and the cross bars.

Further stated, one end of the relay rack is fixedly provided with a feeding bin, a feeding cylinder is arranged below the feeding bin, and the feeding cylinder is used for taking materials from the feeding bin and placing the materials on the supporting rod.

Further stated, an exposure frame is also fixedly arranged on the relay stand, the exposure frame is positioned on one side of the feeding bin, an optical detection lens is arranged above the exposure frame, and the optical detection lens is fixedly arranged above the stand.

The device is characterized in that a carrying jig is fixedly arranged on the relay stand, the carrying jig is provided with a plurality of suckers, the carrying jig is erected above the relay stand through a transverse moving frame, the transverse moving frame is fixedly arranged above the machine, the transverse moving frame is provided with a screw motor, and the screw motor is used for controlling the carrying jig to horizontally move on the transverse moving frame; the carrying jig is positioned at one side of the exposure frame, which is away from the feeding bin.

Further stated, one side of the carrying jig, which deviates from the exposure frame, is provided with a defective product bin, and a blanking cylinder is correspondingly arranged below the defective product bin and is used for transferring the battery tray on the abutting rod to the defective product bin.

Compared with the prior art, the utility model has the following beneficial effects:

the utility model can carry the battery placing tray filled with the button battery integrally, and convey the battery placing tray filled with the button battery integrally to the optical detector for detection, and can detect the button battery of the whole tray integrally and convey the button battery integrally, thereby improving the detection efficiency; after button cell detects and transports out, erect good product screening tool in transport mechanism's top, take out good button cell from the battery place the dish and by the tool remove on the equipment that good product was accomodate, be equipped with the battery that is equipped with all defective products afterwards and place the dish and accomodate on the defective products place the storehouse. The utility model improves the overall efficiency of transportation and screening, and has the function of accommodating defective products.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

fig. 2 is a schematic perspective view of a relay stand according to the present utility model.

The drawings are marked with the following description:

the device comprises a 1-machine table, a 2-sliding plate, a 3-linear cylinder, a 4-lifting cylinder, a 5-linear guide rail, a 6-upright post, a 7-relay plate, an 8-framework cross bar, a 9-cross bar, a 10-feeding bin, an 11-feeding cylinder, a 12-exposure frame, a 13-optical detection lens, a 14-carrying jig, a 15-defective bin, a 16-blanking cylinder and a 17-abutting rod.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model. The present utility model may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the utility model, whereby the utility model is not limited to the specific embodiments disclosed below.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. When the number of one element is referred to as being "plural," it may be any number of two or more. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

The present utility model will be described in detail with reference to the following embodiments shown in the drawings:

as shown in fig. 1-2, in this embodiment, a mechanism for screening water and liquid leakage of a button cell is provided, which includes a machine table 1, a relay stand for temporarily placing a cell tray is fixedly arranged on the top of the machine table 1, and temporarily means that the cell tray (cell placing tray) with the button cell needs to stay at fixed points at different stations to perform corresponding operations, and after each operation is completed, the cell tray is lifted by a conveying mechanism and conveyed to the next station; the transmission mechanism is arranged below the relay rack, the transmission mechanism comprises a pair of symmetrically arranged abutting rods 17 which are used for abutting against the bottom of the battery tray, the abutting rods 17 and the relay rack are alternately abutted against the battery tray to realize the transportation and fixed-point placement of the battery tray, and the distance between the pair of symmetrically arranged abutting rods 17 (particularly the distance between the outer sides of the two abutting rods 17) is required to be smaller than or equal to the battery tray so that the two abutting rods 17 can be abutted against the battery tray simultaneously.

Further explaining the transmission mechanism, the transmission mechanism includes the board 2 that slides, the straight line cylinder 3, a pair of lift cylinder 4, the fixed linear guide 5 that sets up at board 1 top, the board 2 that slides locates at the top of board 1 through linear guide 5, a pair of lift cylinder 4 is fixed respectively to be set up on the both ends of board 2 that slides, a pair of butt pole 17 and the output fixed connection of lift cylinder 4, the fixed setting of straight line cylinder 3 is located the one side of board 2 that slides on board 1, the output and the board 2 fixed connection of straight line cylinder 3. The linear cylinder 3 acts to move the sliding plate 2 to the forefront side, then the battery disc on the feeding bin 10 is taken down under the action of the feeding cylinder 11, the lifting cylinder 4 on the sliding plate 2 acts to lift the supporting rod 17 upwards, and then the feeding cylinder 11 descends to enable the battery disc to be placed on the supporting rod 17; the abutting rod 17 is higher than the battery tray of the relay board 7 and is placed on the abutting rod 17, so that the battery tray cannot be in friction interference with the relay board 7 when moving, the linear cylinder 3 acts to reset and pull the sliding board 2 back, the battery tray moves onto the exposure frame 12 from the lower side of the feeding bin 10, the lifting cylinder 4 acts to lower the abutting rod 17 to the lower side of the relay board 7, and the battery tray also moves downwards at the moment to stably stop on the relay board 7.

It should be noted that the supporting rod 17 is provided with a plurality of dividing blocks, and the battery tray can be placed between the dividing blocks, so that the battery tray can be placed on the dividing blocks in a limiting manner, and the situation that the battery tray is moved and falls down when being transported on the supporting rod 17 is prevented, so that equipment error reporting is caused.

After the battery tray is exposed on the exposure frame 12 and the image is captured, the sliding plate 2 is moved forward by the action of the linear cylinder 3, then the battery tray is lifted from the relay plate 7 by the action of the abutting rod 17 by the action of the lifting cylinder 4, the battery tray at the moment is moved backward by one station position corresponding to the abutting rod 17, the abutting rod 17 conveys the battery tray to the position below the conveying jig 14 on the exposure frame 12, specifically, the battery tray is conveyed to the position below the conveying jig 14 by resetting the linear cylinder 3, then the lifting cylinder 4 is lowered, the abutting rod 17 is moved to the position below the relay plate 7, and the battery tray is replaced on the relay plate 7 but is positioned below the conveying jig 14. It can be obtained from the above that the battery trays can be moved on different stations step by alternately abutting the abutting rod 17 and the relay board 7, and when the battery trays are worth mentioning, the abutting rod 17 has a certain length and the length of the abutting rod is consistent with that of the relay stand, so that the abutting rod 17 can simultaneously transport a plurality of battery trays, and each battery tray sequentially passes through the exposure frame 12 and the carrying jig 14 from the feeding bin 10.

Therefore, the conveying mechanism can convey the whole battery tray to each station for detection and screening, and meanwhile, each battery on the battery tray does not need to be taken off for independent detection.

In the above-mentioned action process, the linear cylinder 3 is used for controlling the sliding plate 2 to reciprocate horizontally on the machine 1.

In this embodiment, the relay rack includes a stand 6, a relay board 7, a framework bar 8 and a pair of symmetrically distributed cross bars 9, the stand 6 is fixedly disposed on the machine 1, the cross bars 9 are fixedly connected with the top of the stand 6, two ends of the framework bar 8 extend upwards to a certain height and are respectively fixedly connected with the cross bars 9, optionally, the relay board 7 is fixedly connected with the middle of the framework bar 8, a sliding gap is preset between the relay board 7 and the cross bars 9, the supporting rod 17 is located in the sliding gap and is not in contact with the relay board 7 and the cross bars 9, so that a sliding gap is generated because two ends of the framework bar 8 extend upwards, a height difference exists between the cross bars 9 and the relay board 7, and meanwhile, the width of the relay board 7 is smaller than the distance between the side walls of the two cross bars 9, so that a certain gap is formed between the side walls of the relay board 7 and the side walls of the two cross bars 9, and the width of the gap is larger than the thickness of the supporting rod 17.

However, in this embodiment, the skeleton rail 8 is preferably provided with a sliding groove on both sides for allowing the abutting rod 17 to slide freely, and the width of the sliding groove is larger than the thickness of the abutting rod 17, while the connecting height between the relay board 7 and the middle of the skeleton rail 8 is identical to the connecting height between the cross rod 9 and the skeleton rail 8, and there is no difference in height between the bottom of the relay board 7 and the bottom of the cross rod 9.

The following describes the operation components of each post, one end of the relay rack is fixedly provided with a feeding bin 10, a feeding cylinder 11 is arranged below the feeding bin 10, the feeding cylinder 11 is used for taking materials from the feeding bin 10 and placing the materials on a supporting rod 17, blanking cylinders (the side wall of the feeding bin 10 is provided with an opening for installing the cylinders in the drawing) are symmetrically arranged on two sides of the bottom of the feeding bin 10 and can be used for controlling the falling of the battery trays, when a piece is required to be taken, the feeding cylinder 11 is lifted to be abutted against an electromagnetic tray placed on the blanking cylinder and at the bottom, then the blanking cylinder is contracted, the feeding cylinder 11 is also contracted, after all the battery trays fall by one battery tray distance, the blanking cylinder is stretched out again for bearing all the battery trays at the previous stage, when the feeding is required again, the actions are repeated, the battery trays placed on the feeding cylinder 11 can be lifted by the supporting rod 17 which is lifted up subsequently, and are separated from the feeding cylinder 11, and when the top of the feeding cylinder 11 is in a certain level with the piston rod 7 which is retracted.

The relay frame is also fixedly provided with an exposure frame 12, the exposure frame 12 is positioned at one side of the feeding bin 10, an optical detection lens 13 is arranged above the exposure frame 12, and the optical detection lens 13 is fixedly arranged above the machine 1. The optical detection lens 13 captures and converts the picture into an electric signal to be output to a computer, then the computer controls the corresponding sucker to move away the good products on the battery tray, the rest defective products are still placed on the battery tray, and the defective products are transported to the defective product bin 15 through the supporting rod 17.

The relay rack is also fixedly provided with a carrying jig 14, the carrying jig 14 is provided with a plurality of suckers, the suckers are distributed on the carrying jig 14 in a rectangular array mode, and the arrangement mode of the suckers is preferably changed according to the distribution position of the button cells on the battery tray. The carrying jig 14 is erected above the relay rack through a transverse moving rack, the transverse moving rack is fixedly arranged above the machine table 1, and a screw rod motor is arranged on the transverse moving rack and used for controlling the carrying jig 14 to horizontally move on the transverse moving rack; the carrying jig 14 is positioned at one side of the exposure frame 12 away from the upper bin 10; the side of transport tool 14 facing away from exposure frame 12 is provided with defective products storehouse 15, and the below in defective products storehouse 15 corresponds to be provided with unloading cylinder 16, and unloading cylinder 16 is used for transferring the battery dish on the butt pole 17 to on the defective products storehouse 15. It should be noted that, in order to make the blanking cylinder 16 below the defective bin accurately align with the blanking cylinder 16 below the defective bin 15, the cylinder body of the blanking cylinder 16 needs to be fixed on the machine 1, since the defective bin 15 is located in the middle of the relay frame, and the sliding plate 2 slides mainly below the middle of the relay frame, so that in order to avoid interference between the two, a through hole is formed in the middle of the sliding plate 2, the sliding plate 2 slides and does not interfere with the blanking cylinder 16, and the length of the through hole is as long as the stroke of the linear cylinder 3, so that the sliding plate 2 does not collide with the blanking cylinder 16 regardless of sliding. In this embodiment, the relay boards 7 are divided into two boards, the two relay boards 7 are arranged at intervals, and a space for lifting the blanking cylinder 16 is reserved between the two relay boards 7 to prevent interference when the blanking cylinder lifts.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features of the above-described embodiments are not described for brevity, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description, and it is also possible for those skilled in the art to make several variations and modifications without departing from the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (8)

1. Button cell goes out water leakage screening mechanism, including board, its characterized in that: the top of the machine table is fixedly provided with a relay stand for temporarily placing the battery tray, a transmission mechanism is arranged below the relay stand, the transmission mechanism comprises a pair of symmetrically arranged abutting rods which are used for abutting against the bottom of the battery tray, and the abutting rods and the relay stand are alternately abutted against the battery tray to realize the transportation and fixed-point placement of the battery tray.

2. The button cell effluent screening mechanism as defined in claim 1, wherein: the transmission mechanism comprises a sliding plate, a linear air cylinder, a pair of lifting air cylinders and a linear guide rail fixedly arranged at the top of the machine table, wherein the sliding plate is slidably arranged at the top of the machine table through the linear guide rail, the lifting air cylinders are respectively fixedly arranged at two ends of the sliding plate, the supporting rods are fixedly connected with the output ends of the lifting air cylinders, the linear air cylinders are fixedly arranged on one side of the machine table, and the output ends of the linear air cylinders are fixedly connected with the sliding plate.

3. The button cell effluent screening mechanism as defined in claim 2, wherein: the linear cylinder is used for controlling the sliding plate to reciprocate horizontally on the machine.

4. The button cell effluent screening mechanism as defined in claim 1, wherein: the relay rack comprises an upright post, a relay plate, a framework cross bar and cross bars which are symmetrically distributed, wherein the upright post is fixedly arranged on the machine, the cross bars are fixedly connected with the top of the upright post, two ends of the framework cross bar extend upwards to a certain height and are respectively fixedly connected with the cross bars, the relay plate is fixedly connected with the middle part of the framework cross bar, a sliding gap is preset between the relay plate and the cross bars, and the abutting bars are positioned in the sliding gap and are in non-contact connection with the relay plate and the cross bars.

5. The button cell effluent screening mechanism as defined in claim 1, wherein: the one end of relay frame platform is fixed to be provided with the feed bin, the feed bin below is provided with the material loading cylinder, and the material loading cylinder is used for getting material from last feed bin department and places on the butt pole.

6. The button cell effluent screening mechanism as defined in claim 5, wherein: the relay frame is characterized in that an exposure frame is further fixedly arranged on the relay frame, the exposure frame is located on one side of the feeding bin, an optical detection lens is arranged on the upper portion of the exposure frame in a erected mode, and the optical detection lens is fixedly arranged above the machine.

7. The button cell effluent screening mechanism as defined in claim 6, wherein: the device is characterized in that a carrying jig is fixedly arranged on the relay stand, the carrying jig is provided with a plurality of suckers, the carrying jig is erected above the relay stand through a transverse moving frame, the transverse moving frame is fixedly arranged above the machine, the transverse moving frame is provided with a screw motor, and the screw motor is used for controlling the carrying jig to horizontally move on the transverse moving frame; the carrying jig is positioned at one side of the exposure frame, which is away from the feeding bin.

8. The button cell outlet drain screening mechanism of claim 7, wherein: the carrying jig is provided with a defective product bin on one side deviating from the exposure frame, a blanking cylinder is correspondingly arranged below the defective product bin, and the blanking cylinder is used for transferring a battery tray on the abutting rod to the defective product bin.