CN106882437B - Split-combination type manual packaging device for button battery and use method - Google Patents

Abstract

The invention provides a split-type manual packaging device of a button cell and a use method thereof, wherein the split-type manual packaging device comprises a master bearing disc, a split-type frame and a sub-packaging disc; the separating and combining frame comprises a bearing plate, a transition disc arranged at the upper end surface of the bearing plate and a plurality of sub-bearing disc tracks arranged at the lower end surface of the bearing plate; the transition disc consists of a plurality of sub-bearing discs; each sub-bearing plate is connected with a sub-bearing plate track through a connecting piece and slides on the sub-bearing plate track to enable the transition plate to be in a spliced mode or an unfolding mode; when the materials in the mother bearing plate are required to be packaged by the child packaging plate, the transition plate is firstly arranged in a split mode and covered on the mother bearing plate, the split frame is turned over to enable the materials in the mother bearing plate to be transferred into the transition plate, and then the transition plate is arranged in an unfolding mode, so that the child bearing plate and the child packaging plate are in one-to-one butt joint to transfer the materials to the child packaging plate again; the invention can conveniently convert button cells packaged by a large tray into small-size packaging tray for packaging.

Description

Split-combination type manual packaging device for button battery and use method

Technical Field

The invention relates to the field of packaging equipment, in particular to a split-type manual packaging device for button cells and a using method thereof.

Background

Button cells are commonly used types of cells, due to the small size, are often packaged in the form of large trays in production, but when finished products are required to be packaged in small-size packaging trays, due to the fact that the rims are usually arranged around the small-size packaging trays, the small-size packaging trays are difficult to butt against the large trays to transfer the finished button cells, so that the finished product packaging efficiency of the button cells is seriously affected, and due to the small size of the button cells, the distance between the positive electrode and the negative electrode is very short-circuited, if the button cells are stacked in a mess, the metal pieces of the button cells are easily short-circuited to each other to damage the product quality, and how to solve the problem is a research direction.

Disclosure of Invention

The invention provides a split-type manual packaging device for button cells and a use method thereof, which can conveniently convert button cells packaged by a large tray into small-size packaging trays for packaging.

The invention adopts the following technical scheme.

A split-combination type manual packing device of button cells and a use method are used for uniformly dispersing button cells of a large-size master carrier plate onto a plurality of small-size sub-packing plates, and the packing device comprises the master carrier plate, a split-combination frame and the sub-packing plates; the separating and combining frame comprises a bearing plate, a transition disc arranged at the upper end surface of the bearing plate and a plurality of sub-bearing disc tracks arranged at the lower end surface of the bearing plate; the transition disc consists of a plurality of sub-bearing discs; each sub-bearing plate is connected with the sub-bearing plate track through a connecting piece and slides on the sub-bearing plate track; the starting point and the end point of each sub-bearing plate track are respectively provided with a magnetic attraction piece for adsorbing and fixing the sub-bearing plate connecting pieces; when the sub-bearing plates are all positioned at the starting points of the tracks of the sub-bearing plates, the transition plates are in a split mode, and when the sub-bearing plates are all positioned at the ending points of the tracks of the sub-bearing plates, the transition plates are in an unfolding mode.

The top view shape and the dimension specification of the split shape of the transition disc are matched with those of the master carrier disc, and the top view shape of the unfolded shape of the transition disc is a combination of the top view shapes of a plurality of sub-packaging discs in the same plane.

The material packaging machine is characterized in that accommodating structures for accommodating materials are arranged on the mother bearing plate, the child bearing plate and the child packaging plate, when the materials in the mother bearing plate are required to be packaged in a split mode by the child packaging plate, the transition plate is firstly arranged into a split mode, the split frame is turned over, then the split mode transition plate is covered on the mother bearing plate, the split frame is turned over again, the materials in the mother bearing plate are directly transferred into the transition plate, the transition plate is reset to be in an unfolding mode, and then the child bearing plate and the child packaging plate are in one-to-one butt joint to transfer the materials to the child packaging plate again.

The material is a button cell, and the accommodating structure for accommodating the material on the mother bearing plate, the child bearing plate and the child packaging plate is a button cell accommodating hole; when the transition disc is covered on the mother bearing disc, the transition disc corresponds to the button cell accommodating holes on the mother bearing disc one by one; when the sub-bearing plate is in butt joint with the sub-packaging plate, the sub-bearing plate corresponds to the button cell accommodating holes in the sub-packaging plate one by one.

The mother bearing plate, the child bearing plate and the child packaging plate are rectangular in top view.

The packing device further comprises a supporting plate, the supporting plate is rectangular in the top view direction, and the shape and the size specification of the supporting plate are matched with the unfolding form of the transition disc so that the supporting plate can be completely covered on the unfolding form of the transition disc.

The packing method of the packing device sequentially comprises the following steps of;

a1, sliding each empty sub-bearing disc on the separating and combining frame to the starting point of each sub-bearing disc track, and mutually combining the sub-bearing discs at the moment to enable the transition disc to be in a combined mode, and overturning the separating and combining frame to enable the button cell accommodating hole of the transition disc to be downward;

a2, covering the spliced transition disc on a mother bearing disc full of button cells, so that the edge of the transition disc is overlapped with the edge of the mother bearing disc, and the transition disc corresponds to button cell accommodating holes in the mother bearing disc one by one; the separating and combining frame is turned over, so that the opening of the button cell accommodating hole of the transition disc is upward, and the button cells in the mother bearing disc are directly transferred into the button cell accommodating hole of the transition disc;

a3, sliding each sub-bearing disc to the end point of each sub-bearing disc track, wherein each sub-bearing disc filled with button cells is separated from each other at the moment, so that the transition disc is in an unfolding form;

a4, covering a plurality of inverted sub-packaging trays on sub-carrier trays corresponding to the dimension specifications of the sub-packaging trays at the transition tray in an unfolding mode, so that the spliced sub-packaging trays completely cover the transition tray, at the moment, the positions of the sub-carrier trays and the sub-packaging trays are in one-to-one butt joint, the sub-carrier trays are in one-to-one correspondence with button cell accommodating holes in the sub-packaging trays, and the button cell accommodating holes in the sub-packaging trays face downwards;

a5, covering the supporting plate on the back surface of the sub-packaging plate on the transition plate and compacting to enable the sub-packaging plate to be tightly adhered to the transition plate in an unfolding form to form a combination body;

a6, turning over the combined body, placing the combined body on a working surface of a packaging procedure, enabling a button cell accommodating hole on each sub-packaging tray to face upwards, and directly transferring the button cells in each sub-packaging tray into the sub-packaging tray in butt joint with the sub-packaging tray;

a7, removing the supporting plate and the separating and combining frame, wherein the sub-packaging tray is filled with the button cells, and is horizontally arranged on the working face of the packaging procedure, and the sub-packaging tray filled with the button cells is transported to the next procedure.

The lower end face of the separating and combining frame is provided with a supporting leg.

The sub-carrier plate tracks are radially distributed at the lower end surface of the carrier plate by taking the center of the transition plate as the center.

In the invention, the top view shape and the dimension specification of the split form of the transition disc are matched with those of the master carrier disc, and the top view shape of the unfolding form of the transition disc is a combination of the top view shapes of a plurality of sub-packaging discs in the same plane; the mother bearing plate, the child bearing plate and the child packaging plate are rectangular in top view; the packing device also comprises a supporting plate, the supporting plate is rectangular in the plane view direction, the shape and the dimension specification of the supporting plate are matched with the unfolding form of the transition plate so that the supporting plate can be completely covered on the unfolding form of the transition plate, and the child carrier plate tracks are radially distributed at the lower end face of the carrier plate by taking the center of the transition plate as the center; in this design, come the son packaging dish that corresponds mother and make up the state with two kinds of forms of frame that separate and close respectively, solved the son packaging dish that causes because son packaging dish surrounding flange can not dock with mother and hold the dish problem well for button cell in the mother holds the dish can be fast in a plurality of son packaging dishes partial shipment, thereby promoted the packing efficiency of finished product button cell greatly.

In the invention, the button cells are directly transferred from the button cell accommodating holes of the mother bearing plate to the accommodating holes of the child packaging plates through the transition plates, so that good insulating state is always kept between the button cells, short circuit is not caused by stacking of the button cells, and the quality of finished products is maintained.

In the invention, the transition disc consists of a plurality of sub-bearing discs; each sub-bearing plate is connected with the sub-bearing plate track through a connecting piece and slides on the sub-bearing plate track; the starting point and the end point of each sub-bearing plate track are respectively provided with a magnetic attraction piece for adsorbing and fixing the sub-bearing plate connecting pieces; when the sub-bearing plates are all positioned at the starting points of the tracks of the sub-bearing plates, the transition plates are in a split mode, and when the sub-bearing plates are all positioned at the ending points of the tracks of the sub-bearing plates, the transition plates are in an unfolding mode; the design ensures that the splicing state and the unfolding state of the transition disc can be constrained by a certain magnetic force, and the set shape of the transition disc is not easy to lose efficacy due to the overturning of the splitting and combining frame.

The peripheral flanges of the sub-packaging trays are identical in size, so that the peripheral flange lengths of the packaging trays are compensated through the sub-carrier tray rails, the packaging trays with different sizes are simultaneously used for transferring materials of the transition tray, and the sub-carrier tray on the transition tray can be matched with the packaging tray with the used specification, so that the application range of the packaging tray is expanded.

Drawings

The invention is described in further detail below with reference to the attached drawings and detailed description:

FIG. 1 is a schematic top perspective view of the expanded configuration of the collapsible frame of the present invention;

FIG. 2 is a bottom perspective view of the expanded configuration of the split frame of the present invention;

FIG. 3 is a bottom perspective view of the split configuration of the split frame of the present invention;

FIG. 4 is a top view partially schematic illustration of the master carrier plate of the present invention;

FIG. 5 is a schematic top view of the sub-packaging tray of the present invention;

FIG. 6 is a schematic top view of the pallet of the present invention;

in the figure: 1-a master bearing plate; 2-sub-packaging trays; 3-button cell receiving holes; 4-a sub-bearing plate; 5-a carrier plate; 6-a sub-tray rail; 7-a connecting piece between the sub-bearing plate and the track; 8-magnetic attraction pieces; 9-supporting legs; 10-transition disc; 11-starting point of the sub-carrier track; 12-end of the sub-basin track.

Detailed Description

As shown in fig. 1 to 5, a split-type manual packing device for button cells and a using method thereof are used for uniformly distributing button cells in a large-sized master carrier plate 1 to a plurality of small-sized sub-packing plates 2, wherein the packing device comprises the master carrier plate 1, a split-type frame and the sub-packing plates 2; the separating and combining frame comprises a bearing plate 5, a transition disc 10 arranged at the upper end surface of the bearing plate 5 and a plurality of sub-bearing disc tracks 6 arranged at the lower end surface of the bearing plate; the transition disc 10 is composed of a plurality of sub-carrier discs 4; each sub-tray 4 is connected with the sub-tray rail 6 by a connecting piece 7 and slides on the sub-tray rail 6; the starting point and the end point of each sub-bearing plate track 6 are respectively provided with a magnetic attraction piece 8 for adsorbing the fixed sub-bearing plate connecting piece 7; when the sub-carrier plates 4 are all positioned at the starting point 11 of each sub-carrier plate track, the transition plate 10 takes a split form, and when the sub-carrier plates 4 are all positioned at the ending point 12 of each sub-carrier plate track, the transition plate 10 takes an expanded form.

The top view shape and the dimension specification of the split shape of the transition disc 10 are matched with those of the mother carrier disc 1, and the top view shape of the unfolded shape of the transition disc 10 is a combination of the top view shapes of the plurality of sub-packaging discs 2 in the same plane.

The accommodating structures for accommodating materials are arranged on the mother bearing plate 1, the child bearing plate 4 and the child packaging plate 2, when the child packaging plate 2 is used for packaging the materials in the mother bearing plate 1, the transition plate 10 is firstly arranged into a split mode, the split frame is turned over, then the split mode transition plate is covered on the mother bearing plate 1, the split frame is turned over again, the materials in the mother bearing plate 1 are directly transferred into the transition plate 10, the transition plate 10 is reset to be in an unfolding mode, and then the child bearing plates 4 are in one-to-one butt joint with the child packaging plates 2 to transfer the materials to the child packaging plates 2.

The material is a button cell, and the accommodating structure for accommodating the material on the mother bearing plate, the child bearing plate and the child packaging plate is a button cell accommodating hole 3; when the transition disc is covered on the mother bearing disc, the transition disc corresponds to the button cell accommodating holes 3 on the mother bearing disc one by one; when the sub-bearing plate is in butt joint with the sub-packaging plate, the sub-bearing plate corresponds to the button cell accommodating holes 3 on the sub-packaging plate one by one.

The mother bearing plate, the child bearing plate and the child packaging plate are rectangular in top view.

The packing device further comprises a supporting plate, the supporting plate is rectangular in the top view direction, and the shape and the size specification of the supporting plate are matched with the unfolding form of the transition disc so that the supporting plate can be completely covered on the unfolding form of the transition disc.

The packing method of the packing device sequentially comprises the following steps of;

a1, sliding each empty sub-bearing disc on the separating and combining frame to the starting point of each sub-bearing disc track, and mutually combining the sub-bearing discs at the moment to enable the transition disc to be in a combined mode, and overturning the separating and combining frame to enable the button cell accommodating hole of the transition disc to be downward;

a2, covering the spliced transition disc on a mother bearing disc full of button cells, so that the edge of the transition disc is overlapped with the edge of the mother bearing disc, and the transition disc corresponds to button cell accommodating holes in the mother bearing disc one by one; the separating and combining frame is turned over, so that the opening of the button cell accommodating hole of the transition disc is upward, and the button cells in the mother bearing disc are directly transferred into the button cell accommodating hole of the transition disc;

a3, sliding each sub-bearing disc to the end point of each sub-bearing disc track, wherein each sub-bearing disc filled with button cells is separated from each other at the moment, so that the transition disc is in an unfolding form;

a4, covering a plurality of inverted sub-packaging trays on sub-carrier trays corresponding to the dimension specifications of the sub-packaging trays at the transition tray in an unfolding mode, so that the spliced sub-packaging trays completely cover the transition tray, at the moment, the positions of the sub-carrier trays and the sub-packaging trays are in one-to-one butt joint, the sub-carrier trays are in one-to-one correspondence with button cell accommodating holes in the sub-packaging trays, and the button cell accommodating holes in the sub-packaging trays face downwards;

a5, covering the supporting plate on the back surface of the sub-packaging plate on the transition plate and compacting to enable the sub-packaging plate to be tightly adhered to the transition plate in an unfolding form to form a combination body;

a6, turning over the combined body, placing the combined body on a working surface of a packaging procedure, enabling a button cell accommodating hole on each sub-packaging tray to face upwards, and directly transferring the button cells in each sub-packaging tray into the sub-packaging tray in butt joint with the sub-packaging tray;

a7, removing the supporting plate and the separating and combining frame, wherein the sub-packaging tray is filled with the button cells, and is horizontally arranged on the working face of the packaging procedure, and the sub-packaging tray filled with the button cells is transported to the next procedure.

The lower end face of the separating and combining frame is provided with a supporting leg 9.

The sub-carrier plate tracks 6 are radially distributed at the lower end surface of the carrier plate 5 with the center of the transition plate 10 as the center.

Claims (3)

1. The utility model provides a manual packing apparatus of branch of closing of button cell for evenly disperse the button cell with the mother of large-scale carrier dish to a plurality of small-scale son packing dish, its characterized in that: the packing device comprises a main bearing disc, a split-combined frame and a sub-packing disc; the separating and combining frame comprises a bearing plate, a transition disc arranged at the upper end surface of the bearing plate and a plurality of sub-bearing disc tracks arranged at the lower end surface of the bearing plate; the transition disc consists of a plurality of sub-bearing discs; each sub-bearing plate is connected with the sub-bearing plate track through a connecting piece and slides on the sub-bearing plate track; the starting point and the end point of each sub-bearing plate track are respectively provided with a magnetic attraction piece for adsorbing and fixing the sub-bearing plate connecting pieces; when the sub-bearing plates are all positioned at the starting points of the tracks of the sub-bearing plates, the transition plates are in a split mode, and when the sub-bearing plates are all positioned at the ending points of the tracks of the sub-bearing plates, the transition plates are in an unfolding mode;

the top view shape and the size specification of the split shape of the transition disc are matched with those of the master carrier disc, and the top view shape of the unfolded shape of the transition disc is a combination of the top view shapes of a plurality of sub-packaging discs in the same plane;

the material accommodating structure comprises a main bearing plate, a sub bearing plate and a sub packaging plate, wherein the main bearing plate, the sub bearing plate and the sub packaging plate are respectively provided with an accommodating structure for accommodating materials;

the material is a button cell, and the accommodating structure for accommodating the material on the mother bearing plate, the child bearing plate and the child packaging plate is a button cell accommodating hole; when the transition disc is covered on the mother bearing disc, the transition disc corresponds to the button cell accommodating holes on the mother bearing disc one by one; when the sub-bearing plate is in butt joint with the sub-packaging plate, the sub-bearing plate corresponds to button cell accommodating holes on the sub-packaging plate one by one;

the mother bearing plate, the child bearing plate and the child packaging plate are rectangular in top view;

the packing device also comprises a supporting plate, wherein the supporting plate is rectangular in the plane view direction, and the shape and the dimension specification of the supporting plate are matched with the unfolding form of the transition disc so that the supporting plate can be completely covered on the unfolding form of the transition disc;

the application method of the split-type manual packing device of the button cell comprises the following steps in sequence;

a1, sliding each empty sub-bearing disc on the separating and combining frame to the starting point of each sub-bearing disc track, and mutually combining the sub-bearing discs at the moment to enable the transition disc to be in a combined mode, and overturning the separating and combining frame to enable the button cell accommodating hole of the transition disc to be downward;

a2, covering the spliced transition disc on a mother bearing disc full of button cells, so that the edge of the transition disc is overlapped with the edge of the mother bearing disc, and the transition disc corresponds to button cell accommodating holes in the mother bearing disc one by one; the separating and combining frame is turned over, so that the opening of the button cell accommodating hole of the transition disc is upward, and the button cells in the mother bearing disc are directly transferred into the button cell accommodating hole of the transition disc;

a3, sliding each sub-bearing disc to the end point of each sub-bearing disc track, wherein each sub-bearing disc filled with button cells is separated from each other at the moment, so that the transition disc is in an unfolding form;

a4, covering a plurality of inverted sub-packaging trays on sub-carrier trays corresponding to the dimension specifications of the sub-packaging trays at the transition tray in an unfolding mode, so that the spliced sub-packaging trays completely cover the transition tray, at the moment, the positions of the sub-carrier trays and the sub-packaging trays are in one-to-one butt joint, the sub-carrier trays are in one-to-one correspondence with button cell accommodating holes in the sub-packaging trays, and the button cell accommodating holes in the sub-packaging trays face downwards;

a5, covering the supporting plate on the back surface of the sub-packaging plate on the transition plate and compacting to enable the sub-packaging plate to be tightly adhered to the transition plate in an unfolding form to form a combination body;

a6, turning over the combined body, placing the combined body on a working surface of a packaging procedure, enabling a button cell accommodating hole on each sub-packaging tray to face upwards, and directly transferring the button cells in each sub-packaging tray into the sub-packaging tray in butt joint with the sub-packaging tray;

a7, removing the supporting plate and the separating and combining frame, wherein the sub-packaging tray is filled with the button cells, and is horizontally arranged on the working face of the packaging procedure, and the sub-packaging tray filled with the button cells is transported to the next procedure.

2. The split-type manual packing device for button cells according to claim 1, wherein: the lower end face of the separating and combining frame is provided with a supporting leg.

3. The split-type manual packing device for button cells according to claim 2, wherein: the sub-carrier plate tracks are radially distributed at the lower end surface of the carrier plate by taking the center of the transition plate as the center.

Images