CN215625204U

CN215625204U - Button cell loading attachment

Info

Publication number: CN215625204U
Application number: CN202122022409.1U
Authority: CN
Inventors: 李锦枢; 张春成
Original assignee: Wenzhou Anchuang Machinery Technology Co ltd
Current assignee: Wenzhou Anchuang Machinery Technology Co ltd
Priority date: 2021-08-25
Filing date: 2021-08-25
Publication date: 2022-01-25
Anticipated expiration: 2031-08-25

Abstract

The utility model relates to a button battery feeding device, which comprises a second rack, wherein a conveying mechanism is arranged in the second rack, one end of the second rack is provided with a button battery stacking device used for stacking plastic trays with button batteries, a separating device used for separating the plastic trays with the button batteries from the button battery stacking device is arranged below the button battery stacking device in the second rack, a button battery suction device used for sucking the button batteries in the plastic trays and then conveying the button batteries to an external device is arranged behind the button battery stacking device in the conveying direction of the conveying mechanism in the second rack, and a plastic tray collecting and stacking device used for collecting empty plastic trays after the button batteries are sucked by the button battery suction device is arranged behind the button battery suction device in the second rack, and has the beneficial effects that: rational in infrastructure, can become the dish and carry out the material loading with button cell to the external device, improve button cell's material loading efficiency among the button cell paper packagine machine.

Description

Button cell loading attachment

Technical Field

The utility model relates to the field of button battery packaging machines, in particular to a button battery feeding device.

Background

Traditional button cell adopts cell-shell and cardboard involution, tear the cardboard when using and just can take out the battery, children also can take out the battery easily, the accident that the infant swallows button cell takes place for the time, avoid such problem to take place, button cell has adopted outer cell-shell and interior cell-shell to mould the involution earlier, then with interior cell-shell again with the cardboard involution, it is sealed to form the twice, children can not bare-handedly directly open two cell-shells of moulding the involution, also have on the market to appear being used for forming the button cell packagine machine of this type of packing with the battery, be as patent number: chinese patent of CN 112874910a discloses a button cell packaging machine, whose publication date is 2021.06.01, which adopts a first transmission mechanism comprising a first turntable and a first transmission mold, wherein the first transmission mold is uniformly arranged along the circumferential direction of the first turntable, and the first turntable is provided with a first blister discharging station, a charging station, a second blister discharging station, a sealing station and a discharging station; the first bulb shell forming mechanism comprises a first bulb shell blanking device and is arranged at a first bulb shell blanking station;

the second bulb shell forming mechanism comprises a second bulb shell blanking device and is arranged at a second bulb shell blanking station; the plastic sealing mechanism is arranged at the sealing station; the second transmission mechanism comprises a second turntable and second transmission dies, the second transmission dies are uniformly arranged along the circumferential direction of the second turntable, and the second turntable is provided with a bulb shell feeding station, a bottom placing and clamping station, a paper plastic sealing station and a finished product discharging station; the bulb shell transfer mechanism comprises an overturning and feeding device, wherein the overturning and feeding device is arranged between the discharging station and the bulb shell feeding station and is connected with a first transmission die of the discharging station and a second transmission die of the bulb shell feeding station; and the paper plastic heat sealing mechanism is arranged at the paper plastic sealing station.

The feeding station structure in the scheme is difficult to meet the increasing automatic production requirements, and needs to be improved.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the present invention is to solve the above-mentioned deficiencies of the prior art,

the button cell feeding device is reasonable in structure and capable of conveying the button cells in a coiled mode.

In order to achieve the purpose, the utility model provides the following technical scheme: button cell loading attachment, including the second frame, its characterized in that: the button cell stacking device comprises a second rack, a conveying mechanism is arranged in the second rack, one end of the second rack is provided with a button cell stacking device used for stacking the blister trays with the button cells, a separating device used for separating the blister tray closest to the second rack and filled with the button cells from the button cell stacking device is arranged below the button cell stacking device of the second rack, a button cell sucking device used for sucking the button cells in the blister trays and then conveying the blister trays to an external device is arranged behind the button cell stacking device of the second rack, and a blister tray collecting and stacking device used for collecting the empty blister trays after the button cells are sucked by the button cell sucking device is arranged behind the button cell sucking device of the second rack.

By adopting the technical scheme, the working principle of the utility model is that firstly, the blister trays which are arranged in a stack and are fully covered with the button batteries are manually stacked on the button battery stacking device, although the operation mistake may also exist in manually adding the button batteries into the blister trays, besides, the possibility that a certain blister tray is not fully covered is also possible, but the protection range of the utility model is not influenced, the blister tray which is closest to the second frame and is provided with the button batteries is separated from the button battery stacking device by the separating device and is placed on the conveying mechanism, the button batteries of the tray are conveyed to the button battery sucking device by the conveying mechanism, the batteries in the blister tray are sucked by the button battery sucking device and then conveyed to other devices outside, and the empty blister trays which are sucked with the button batteries are continuously conveyed to the blister tray stacking device on the conveying mechanism, when the device is positioned at the plastic uptake tray collecting and stacking device, the plastic uptake trays are collected by the plastic uptake tray collecting and stacking device, the plastic uptake trays which are stacked after being collected are manually taken out for feeding (button batteries), and then the plastic uptake trays which are provided with the button batteries are placed into the button battery stacking device, and the circular reciprocating motion is carried out. The button cell can be continuously loaded in the blister shell of the assembly line only by at most two persons (one person puts the blister tray with the button cells into the button cell stacking device and one person takes the tray out to collect empty trays in the stacking device), and the button cell sucking device is a device for sucking materials in a conventional paper-plastic packaging machine and is not described in detail for the prior art.

The button cell feeding device can be further arranged as follows: the button cell stacking device comprises a stacking frame body, wherein the stacking frame body extends towards one end far away from the second rack to form a stacking accommodating cavity capable of accommodating the blister tray and with two open ends, the opening close to one end of the second rack is an inlet for the other end of the outlet, and two sides of the stacking frame body are connected with relative setting and can be close to each other or be far away from the support piece for promoting the outlet to be opened or closed.

Adopt above-mentioned technical scheme, put into the buttress blister supporting plate that becomes that is equipped with button cell in to the stack holding chamber through the entrance, support piece is in the closed state of export when packing into, the blister supporting plate can't get into conveying mechanism from the export this moment, and when support piece is in with the export state of opening, blister supporting plate then can get into conveying mechanism, through separator with be close to that the dish that the second frame is equipped with the blister supporting plate of button cell after separating from button cell stacker, the export is opened and to be made this dish button cell get into conveying mechanism and carry in following the stack holding chamber, separator separates the back to the blister supporting plate dish and carries, it is accurate reliable to carry.

The button cell feeding device can be further arranged as follows: the plastic uptake tray is uniformly provided with positioning through holes, the number of which is consistent with that of the positioning through holes capable of containing the button batteries, and the outer diameters of the positioning through holes are smaller than that of the button batteries and can be used for the separation device to pass through.

By adopting the technical scheme, each containing groove for containing the button cell on the blister tray is internally provided with a positioning through hole with the outer diameter smaller than that of the containing groove, the button cell is arranged above each positioning through hole, the separating device can jack up the button cell in the containing groove when passing through the positioning through hole of the lowest blister tray, and the upper blister tray is arranged above the separating device, so that the separating device can jack up the button cell in the positioning through hole and jack up the stacked blister trays above the separating device through the button cell, concretely, the separating device opens the outlet when ascending, the separating device jacks up all the rest blister trays above the lowest blister tray through the positioning through holes and then descends again, and the supporting piece is inserted into the space between the lowest blister tray and the stacked blister tray above the separating device when descending to support the stacked tray above, when the separating device returns, the plastic uptake tray at the lowest part and the button batteries on the plastic uptake tray all fall into the conveying mechanism and are conveyed to the next process by the conveying mechanism.

The button cell feeding device can be further arranged as follows: the separating device comprises a first air cylinder located right below the battery stacking device, and a plurality of second air cylinders which can penetrate through the positioning through holes and jack up other blister trays arranged in a stack except the blister tray closest to the second rack are circumferentially arranged on the first air cylinder.

Adopt above-mentioned technical scheme, through setting up the whole jack-ups of blister supporting plate that first cylinder will be located battery bunching device when separator goes upward, the second cylinder passes the equal jack-up of a section distance of blister supporting plate that the pile of one of battery in with positioning hole and top set up, will all hold in the palm other pile of one of blister supporting plate except that the blister supporting plate of below through support piece after the jack-up, separator descends afterwards and takes the blister supporting plate of below to the next process on conveying mechanism, button cell suction means department carries out the material loading to external device promptly.

The button cell feeding device can be further arranged as follows: the separating device comprises a first air cylinder located right below the stacking frame body, and a plurality of second air cylinders which can penetrate through the positioning through holes and jack up the other blister trays arranged in a stack except the blister tray closest to the second rack are circumferentially arranged on the first air cylinder.

The button cell feeding device can be further arranged as follows: the number of the second cylinders is four, the second cylinders are arranged at four top corners of the first cylinder, and cylinder rods of the second cylinders are arranged opposite to the positioning through holes of the plastic suction tray above the second cylinders.

By adopting the technical scheme, the four second cylinders arranged at the four top corners of the first cylinder penetrate through the positioning through holes of the blister tray above to jack up other stacked blister trays except the blister tray, and the second cylinders are arranged at the four top corners of the first cylinder to enable the jacking process to be more stable, so that the stability is improved.

The button cell feeding device can be further arranged as follows: the support piece comprises a support cylinder, a support plate is connected to the support cylinder, and the width of the support plate is smaller than the distance between the cylinder rods of the two adjacent second cylinders.

By adopting the technical scheme, the cylinder rod of the second cylinder is in the extending state when the separation operation is carried out, so that the interference between the supporting piece and the second cylinder is avoided, the width of the supporting plate is set to be smaller than the distance between two adjacent second cylinders, the supporting plate can smoothly pass through the space between the two second cylinders under the action of the supporting cylinder, and the supporting effect of the piled plastic tray above is achieved.

The button cell feeding device can be further arranged as follows: the stacking device is collected to blister tray is including receiving a buttress framework, but receive a buttress framework to the one end extension formation that keeps away from the second frame can holding blister tray and both ends open-ended receipts buttress holding chamber, the opening that is close to second frame one end is then for receiving a buttress entry other end and export, it is connected with the receipts buttress one-way support piece that can 90 rotations set up to receive buttress framework both sides, receives buttress one-way support piece and can open the laminating in receiving the buttress framework and open and receive a buttress entry to the direction of keeping away from the second frame from being close to the second frame, the second frame is equipped with under receiving the buttress framework and pushes up the blister tray through receiving a buttress entry and insert the liftout cylinder of receiving the buttress framework.

By adopting the technical scheme, the blister supporting plate which is positioned under the stack collecting inlet is pushed into the stack collecting accommodating cavity through the material pushing cylinder, the blister supporting plate is contacted with the stack collecting one-way supporting piece when the blister supporting plate is pushed into the stack collecting one-way supporting piece, the stack collecting one-way supporting piece is extruded and attached to the stack collecting frame body, the stack collecting inlet is opened, and after the blister supporting plate is arranged in the stack collecting accommodating cavity, the stack collecting one-way supporting piece returns to prevent the blister supporting plate from falling from the stack collecting inlet, so that the structure is simple and reasonable.

The button cell feeding device can be further arranged as follows: receive buttress one-way support piece and include an axis of rotation, install the separation blade in the axis of rotation, the axis of rotation both ends are worn to locate respectively and are received the buttress framework and rotatable setting, receive the buttress framework and be equipped with the separation blade stopper in the corresponding position of separation blade, be provided with the spacing groove that the width is greater than or equal to the separation blade width in the separation blade stopper, the one end that the spacing groove is close to the second frame is in same horizontal plane with the separation blade, and the other end of separation blade relative connection axis of rotation passes the spacing groove and is in horizontal position.

Adopt above-mentioned technical scheme, because the existence of separation blade stopper, upwards extrude the separation blade along axis of rotation and spacing groove when plastic uptake tray goes upward, the separation blade can go upward and be located the spacing groove when breaking away from with the separation blade at plastic uptake tray, and after plastic uptake tray gets into receipts buttress holding chamber, the initial position was got back to the separation blade under the effect of axis of rotation, prevents to receive the plastic uptake tray in the buttress holding chamber and breaks away from and receive buttress holding chamber, further improves the stability of device.

The utility model has the beneficial effects that: rational in infrastructure, can become the dish and carry out the material loading with button cell to the external device, improve button cell's material loading efficiency among the button cell paper packagine machine.

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

Drawings

Fig. 1 is a schematic perspective view 1 of an embodiment of the present invention.

Fig. 2 is a schematic perspective view 2 of an embodiment of the present invention.

Fig. 3 is a schematic perspective view of a blister tray according to an embodiment of the present invention.

Fig. 4 is a schematic view of the separating apparatus and the supporting member according to the embodiment of the present invention, in which the supporting plate is in a retracted state.

Fig. 5 is a schematic view of the separating apparatus and the supporting member according to the embodiment of the present invention, in which the supporting plate is in an extended state.

Fig. 6 is a schematic perspective view of a blister tray collecting and stacking device according to an embodiment of the utility model.

Detailed Description

Referring to fig. 1-6: a button cell feeding device comprises a second rack 2, wherein a conveying mechanism is arranged in the second rack 2, the conveying mechanism is a chain type conveying belt 21 which is oppositely arranged, the chain type conveying belt 21 is driven by a servo motor (not shown in the figure) which is installed on the second rack, a button cell stacking device 202 which is used for stacking a blister tray 201 which is provided with button cells is arranged at one end of the second rack 2, a button cell sucking device 204 which is used for sucking the button cells in the blister tray 201 and then conveying the blister tray 201 which is closest to the second rack 2 and is provided with the button cells to an external device is arranged below the button cell stacking device 202 of the second rack 2 along the conveying direction of the chain type conveying belt 21, a button cell sucking device 204 which is used for sucking the button cells in the blister tray 201 and then conveying the blister tray to the external device is arranged behind the button cell sucking device 204 of the second rack 2, and an empty blister tray which is used for sucking the button cells and is arranged behind the button cell sucking device 204 of the second rack 2 The collected blister tray collection and stacking device 205;

the button cell stacking device 202 comprises a stacking frame body 2021, the stacking frame body 2021 extends towards one end far away from the second rack 2 to form a stacking accommodating cavity 2022 which can accommodate the blister tray 201 and is provided with openings at two ends, the opening close to one end of the second rack 2 is an outlet, the other end is an inlet, and two sides of the stacking frame body 2021 are connected with supporting pieces 2023 which are oppositely arranged and can be mutually close to or far away from each other so as to promote the outlet to be opened or closed;

the plastic uptake tray 201 is uniformly provided with positioning through holes 2011 which are consistent with the button batteries in number, and the outer diameter of the positioning through holes 2011 is smaller than the outer diameter of the button batteries and can be used for the separation device 203 to pass through;

the separating device 203 comprises a first air cylinder 2031 which is positioned right below the stacking frame 2021, and a plurality of second air cylinders (not shown in the figure) which can penetrate through the positioning through holes 2011 to jack up the blister trays 201 which are stacked except the blister tray 201 closest to the second rack are circumferentially arranged on the first air cylinder 2031;

the number of the second cylinders (not shown) is four, and the second cylinders are arranged at four top corners of the first cylinder 2031, and the cylinder rods 20321 of the second cylinders (not shown) are arranged opposite to the positioning through holes 2011 of the blister tray 201 above;

the strut 2023 comprises a strut cylinder 20231, a strut plate 20232 is connected to the strut cylinder 20231, and the width of the strut plate 20232 is smaller than the distance between the cylinder rods 20231 of two adjacent second cylinders;

the blister tray collecting and stacking device 205 comprises a stack collecting frame body 2051, the stack collecting frame body 2051 extends towards one end far away from the second rack 2 to form a stack collecting accommodating cavity 2052 which can accommodate the blister tray 201 and is provided with openings at two ends, the opening close to one end of the second rack 2 is a stack collecting inlet 20521, the other end of the stack collecting outlet 20522 is the stack collecting inlet 20522, two sides of the stack collecting frame body 2051 are connected with stack collecting one-way supporting pieces 20523 which can be rotatably arranged at 90 degrees, the stack collecting one-way supporting pieces 20523 can be opened and attached to the stack collecting frame body 2051 from the direction close to the second rack 2 to far away from the second rack 2 so as to open the stack collecting inlet 20521, and a material jacking cylinder 2053 which is used for stacking the blister tray 201 in the stack collecting accommodating cavity 2052 through the stack collecting inlet 20521 is arranged right below the stack collecting frame body 2051 of the second rack 2;

the stacking one-way supporting member 20523 comprises a rotating shaft (not shown in the figure), a baffle 20525 is mounted on the rotating shaft (not shown in the figure), two ends of the rotating shaft (not shown in the figure) are respectively penetrated through the stacking frame body 2051 and rotatably arranged, the stacking frame body 2051 is provided with a baffle limiting block 20526 at a position corresponding to the baffle 20525, a limiting groove 20527 with a width larger than or equal to that of the baffle 20525 is arranged in the baffle limiting block 20526, one end of the limiting groove 20527, which is close to the second rack 2, is located on the same horizontal plane with the baffle 20525, and the other end of the baffle 20525, which is relatively connected with the rotating shaft (not shown in the figure), penetrates through the limiting groove 20527 and is located on the horizontal position.

Claims

1. Button cell loading attachment, including the second frame, its characterized in that: the button cell stacking device comprises a second rack, a conveying mechanism is arranged in the second rack, one end of the second rack is provided with a button cell stacking device used for stacking the blister trays with the button cells, a separating device used for separating the blister tray with the button cells from the button cell stacking device and closest to the second rack is arranged below the button cell stacking device, a button cell sucking device used for sucking the button cells in the blister trays and then conveying the blister trays to an external device is arranged behind the button cell stacking device along the conveying direction of the conveying mechanism, and a blister tray collecting and stacking device used for collecting the empty blister trays after the button cells are sucked by the button cell sucking device is arranged behind the button cell sucking device.

2. The button cell feeding device according to claim 1, wherein: the button cell stacking device comprises a stacking frame body, wherein the stacking frame body extends towards one end far away from the second rack to form a stacking accommodating cavity capable of accommodating the blister tray and with two open ends, the opening close to one end of the second rack is an inlet for the other end of the outlet, and two sides of the stacking frame body are connected with relative setting and can be close to each other or be far away from the support piece for promoting the outlet to be opened or closed.

3. Button cell loading attachment of claim 1 or 2 characterized in that: the plastic uptake tray is uniformly provided with positioning through holes, the number of which is consistent with that of the positioning through holes capable of containing the button batteries, and the outer diameters of the positioning through holes are smaller than that of the button batteries and can be used for the separation device to pass through.

4. The button cell feeding device according to claim 3, wherein: the separating device comprises a first air cylinder located right below the battery stacking device, and a plurality of second air cylinders which can penetrate through the positioning through holes and jack up other blister trays arranged in a stack except the blister tray closest to the second rack are circumferentially arranged on the first air cylinder.

5. The button cell feeding device according to claim 2, wherein: the separating device comprises a first air cylinder located right below the stacking frame body, and a plurality of second air cylinders which can penetrate through the positioning through holes and jack up the other blister trays arranged in a stack except the blister tray closest to the second rack are circumferentially arranged on the first air cylinder.

6. The button cell feeding device according to claim 5, wherein: the number of the second cylinders is four, the second cylinders are arranged at four top corners of the first cylinder, and cylinder rods of the second cylinders are arranged opposite to the positioning through holes of the plastic suction tray above the second cylinders.

7. The button cell feeding device according to claim 5, wherein: the support piece comprises a support cylinder, a support plate is connected to the support cylinder, and the width of the support plate is smaller than the distance between the cylinder rods of the two adjacent second cylinders.

8. Button cell loading attachment of claim 1 or 2 or 4 or 5 or 6 or 7, characterized in that: the stacking device is collected to blister tray is including receiving a buttress framework, but receive a buttress framework to the one end extension formation that keeps away from the second frame can holding blister tray and both ends open-ended receipts buttress holding chamber, the opening that is close to second frame one end is then for receiving a buttress entry other end and export, it is connected with the receipts buttress one-way support piece that can 90 rotations set up to receive buttress framework both sides, receives buttress one-way support piece and can open the laminating in receiving the buttress framework and open and receive a buttress entry to the direction of keeping away from the second frame from being close to the second frame, the second frame is equipped with under receiving the buttress framework and pushes up the blister tray through receiving a buttress entry and insert the liftout cylinder of receiving the buttress framework.

9. The button cell feeding device according to claim 8, wherein: receive buttress one-way support piece and include an axis of rotation, install the separation blade in the axis of rotation, the axis of rotation both ends are worn to locate respectively and are received the buttress framework and rotatable setting, receive the buttress framework and be equipped with the separation blade stopper in the corresponding position of separation blade, be provided with the spacing groove that the width is greater than or equal to the separation blade width in the separation blade stopper, the one end that the spacing groove is close to the second frame is in same horizontal plane with the separation blade, and the other end of separation blade relative connection axis of rotation passes the spacing groove and is in horizontal position.