CN114426131A - Up-down integrated multi-grid packing box and use method thereof - Google Patents

Abstract

The invention discloses an upper-lower integrated multi-insert-lattice packing box and a using method thereof, wherein the packing box is formed by sequentially connecting side plates of a first panel, a second panel, a third panel and a fourth panel to enclose a cylinder body with openings at two ends, a bottom plate of the first panel and a bottom plate of the third panel are bent towards the inner side of the cylinder body to form a first layer box bottom of the packing box, and a bottom plate of the second panel and a bottom plate of the fourth panel are bent towards the inner side of the cylinder body to form a second layer box bottom covering the first layer box bottom; the cover plate of the first panel and the cover plate of the third panel are both bent towards the inner side of the cylinder body to form a first layer of box cover of the packing box, and the cover plate of the second panel and the cover plate of the fourth panel are both bent towards the inner side of the cylinder body to form a second layer of box cover covering the first layer of box cover. The packing box disclosed by the invention forms a plurality of inserting grids by self, is integrally formed from top to bottom, is simple to assemble, can be sealed by self, does not need an adhesive tape, has higher strength, and is suitable for fruits with larger weight and poor extrusion resistance.

Description

Up-down integrated multi-grid packing box and use method thereof

Technical Field

The invention relates to the technical field of packaging, in particular to an upper-lower integrated multi-insert-lattice packaging box and a using method thereof.

Background

The development of the economic society promotes the improvement of the living standard of people, and in recent years, the development of caller ID (caller ID) merchants is rapid, the online shopping gradually replaces the traditional physical shop shopping, and the popularization of the online shopping drives the corresponding upgrading of product packaging.

The original packaging box is formed by cutting a paperboard with crease lines, the paperboard needs to be packaged into a carton by using an adhesive tape when in use, and the carton sealed by the adhesive tape is not enough in bearing and is not resistant to extrusion and is easy to be extruded and deformed in the transportation process. In order to solve the problems, plug-in type cartons are gradually appeared in the market, the bottoms of the cartons are plugged into self-folding boxes through shape structures, glue sealing is replaced, and the extrusion-resistant response characteristic of the cartons is improved to some extent.

With the change of the demand of people, the type of the packaged products also increases the requirements for packaging the cartons, for example, the fruits which can not be collided and extruded in the transportation process are not only required to be collided with each other, but also the cartons need to be firm enough to bear the extrusion in the transportation process.

In order to satisfy this kind of demand, the inserted sheet has been appeared in inside the separating of carton and has been separated and the foam division board, and the internal strength of inserted sheet divided carton is not high, and the heavy fruit of quality is separated with the inserted sheet and can not be satisfied this kind of intensity requirement, and is separated then area great with the foam division board, practical inadequately.

The inserting grids separated by the inserting pieces or the partition plates are not strong in impact and extrusion resistance, and the inserting pieces can be installed and shifted or deformed due to the fact that the box body inclines under the condition that the fruit weight is large, and therefore separation failure is achieved.

Moreover, the packaging is not only for firmness but also for beauty, and the fruit gift box in the supermarket also requires exquisite packaging, so that the packaging is not a storage box in the traditional sense, and is also a commodity endowed with value, and the existing packaging box is difficult to meet the requirements of practicability, extrusion resistance and beauty.

Therefore, a new technical solution is needed to solve the above problems.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and on one hand, the invention provides an upper-lower integrated multi-insert-lattice packing box which adopts the technical scheme that:

a vertical integrated multi-insert-grid packing box comprises a first panel, a second panel, a third panel and a fourth panel, wherein the first panel, the second panel, the third panel and the fourth panel are sequentially provided with a first partition plate, a cover plate, a side plate, a bottom plate and a second partition plate from top to bottom, and the first partition plate and the cover plate, the cover plate and the side plate, the side plate and the bottom plate are connected through crease lines; the side plates of the first panel, the second panel, the third panel and the fourth panel are sequentially connected to enclose a cylinder body with openings at two ends, the first panel and the third panel are oppositely arranged, the second panel and the fourth panel are oppositely arranged, the bottom plate of the first panel and the bottom plate of the third panel are bent towards the inner side of the cylinder body to form a first layer of box bottom of the packing box, the bottom plate of the second panel and the bottom plate of the fourth panel are bent towards the inner side of the cylinder body to form a second layer of box bottom of the packing box, and the second layer of box bottom covers the first layer of box bottom; the cover plate of the first panel and the cover plate of the third panel are bent towards the inner side of the cylinder body to form a first layer of box cover of the packing box, the cover plate of the second panel and the cover plate of the fourth panel are bent towards the inner side of the cylinder body to form a second layer of box cover of the packing box, and the second layer of box cover covers the first layer of box cover; the second partition board of the second panel and the second partition board of the fourth panel are respectively and mutually spliced with the second partition board of the first panel, and the second partition board of the second panel and the second partition board of the fourth panel are respectively and mutually spliced with the second partition board of the third panel to form an insertion grid of the packing box; the first partition board of the second panel and the first partition board of the fourth panel are respectively spliced with the first partition board of the first panel, and the first partition board of the second panel and the first partition board of the fourth panel are respectively spliced with the first partition board of the third panel to form the insertion grids of the packing box.

In a further embodiment, the first, second, third and fourth panels are all rectangular panels, the first and third panels being of the same shape and size, the second and fourth panels being of the same shape and size; the sum of the length of the cover plate of the first panel and the length of the cover plate of the third panel is not greater than the width of the second panel, and the sum of the length of the base plate of the first panel and the length of the base plate of the third panel is not greater than the width of the second panel; the sum of the length of the cover plate of the second panel and the length of the cover plate of the fourth panel is equal to the width of the first panel, and the sum of the length of the bottom plate of the second panel and the length of the bottom plate of the fourth panel is equal to the width of the first panel; the length of the side plate on the first panel, the length of the side plate on the second panel, the length of the side plate on the third panel and the length of the side plate on the fourth panel are equal, and the side plates of the first panel, the second panel, the third panel and the fourth panel are sequentially connected to form a cylinder body with openings at two ends.

In a further embodiment, the first panel is provided with a first strip-shaped groove and a second strip-shaped groove, the first strip-shaped groove on the first panel vertically extends from the crease lines of the cover plate and the side plate on the first panel to the first partition on the first panel, and the second strip-shaped groove on the first panel vertically extends from the crease lines of the bottom plate and the side plate on the first panel to the second partition on the first panel; a third strip-shaped groove and a fourth strip-shaped groove are formed in the third panel, and the third strip-shaped groove in the third panel vertically extends to the first partition plate on the third panel from the crease lines of the cover plate and the side plates on the third panel; the fourth groove on the third panel extends vertically from the crease lines of the side panel and the bottom panel on the third panel to the second partition on the third panel.

In a further embodiment, the distance from the central axis of the first strip-shaped groove on the first panel to the central axis of the second panel is equal to the distance from the central axis of the third strip-shaped groove on the third panel to the central axis of the second panel; and the distance from the central axis of the second strip-shaped groove on the first panel to the central axis of the second panel is equal to the distance from the central axis of the fourth strip-shaped groove on the third panel to the central axis of the second panel.

In a further embodiment, one or more clamping grooves are arranged on the first partition board on each of the first, second, third and fourth panels, the clamping grooves are arranged on one side of the first partition board away from the cover plate, and the clamping grooves are strip-shaped grooves formed by inwards recessing from the edge of the partition board; the distance between the central axis of the clamping groove on the first clapboard of the first panel and the central axis of the second panel is equal to the distance between the central axis of the clamping groove on the first clapboard of the third panel and the central axis of the second panel; the shape and the size of the first partition board of the second panel are the same as those of the first partition board of the fourth panel, and the position and the size of the clamping groove on the first partition board of the second panel are the same as those of the clamping groove on the first partition board of the fourth panel; the shape and position distribution of the clamping grooves on the first partition board of the second panel is consistent with the shape and position distribution of the clamping grooves on the second partition board of the second panel; the shape and position distribution of the clamping grooves on the first partition board of the fourth panel is consistent with the shape and position distribution of the clamping grooves on the second partition board of the fourth panel.

In a further embodiment, the length of the first strip-shaped groove on the first panel extending to the first partition of the first panel is the same as the length of one clamping groove on the first partition of the second panel, the length of the second strip-shaped groove on the first panel extending to the second partition of the first panel is the same as the length of one clamping groove on the second partition of the second panel, the length of the third strip-shaped groove on the third panel extending to the first partition of the third panel is the same as the length of one clamping groove on the first partition of the second panel, and the length of the fourth strip-shaped groove on the third panel extending to the second partition of the third panel is the same as the length of one clamping groove on the second partition of the second panel; a clamping groove on a second partition plate of the second panel is inserted into a second strip-shaped groove on the first panel, a clamping groove on the second partition plate of the second panel is inserted into a fourth strip-shaped groove on the third panel, and the second partition plate on the second panel is attached to the second partition plate on the fourth panel; the clamping groove on the first partition plate of the second panel is inserted into the first strip-shaped groove on the first panel, the clamping groove on the first partition plate of the second panel is inserted into the third strip-shaped groove on the third panel, and the first partition plate on the second panel is attached to the first partition plate on the fourth panel; the second partition board of the second panel is separated by the second partition board on the first panel and the second partition board on the third panel, and the second partition board of the fourth panel is separated by the second partition board on the first panel and the second partition board on the third panel.

In a further embodiment, the first partition board of the first panel and the first partition board of the third panel are respectively inserted into the second partition board of the second panel, the first partition board of the first panel and the first partition board of the third panel are respectively inserted into the second partition board of the fourth panel, and the first partition board of the third panel is attached to the second partition board of the first panel.

In a further embodiment, the bottom plate of the first panel is provided with air holes, and the cover plate of the third panel is provided with air holes.

On the other hand, the invention also provides a use method of the upper and lower integrated multi-insert-lattice packing box, which comprises the following steps:

sequentially connecting side plates of a first panel, a second panel, a third panel and a fourth panel of the packing box to enclose a cylinder;

bending the bottom plate of the first panel towards the inside of the cylinder body along crease lines of the side plate and the bottom plate of the first panel, so that the bottom plate of the first panel is perpendicular to the side plate of the first panel, and the second partition plate of the first panel is parallel to and opposite to the side plate of the first panel;

bending the bottom plate of the third panel towards the inside of the cylinder body along crease lines of the side plate and the bottom plate of the third panel, so that the bottom plate of the third panel is perpendicular to the side plate of the third panel, and the second partition plate of the third panel is parallel to and opposite to the side plate of the third panel;

bending the bottom plate of the second panel towards the inside of the cylinder body along crease lines of the side plates and the bottom plate of the second panel, so that the bottom plate of the second panel covers the bottom plate of the first panel, and the second partition plate of the second panel is opposite to the side plates of the second panel in parallel;

bending the bottom plate of the fourth panel towards the inside of the cylinder body along crease lines of the side plate and the bottom plate of the fourth panel, so that the bottom plate of the fourth panel covers the bottom plate of the first panel, the second partition plate of the fourth panel is parallel and opposite to the side plate of the fourth panel, and the second partition plate of the fourth panel is attached to the second partition plate of the second panel;

the second partition board of the second panel and the second partition board of the fourth panel are respectively and mutually spliced with the second partition board of the first panel, and the second partition board of the second panel and the second partition board of the fourth panel are respectively and mutually spliced with the second partition board of the third panel to form the insertion grids of the packing box.

Further, the use method of the upper and lower integrated multi-insert-lattice packing box further comprises the following steps:

bending the cover plate of the first panel towards the inside of the cylinder body along crease lines of the side plate and the cover plate of the first panel, so that the cover plate of the first panel is parallel and opposite to the bottom plate of the first panel, and the first partition plate of the first panel is mutually inserted with the second partition plate of the second panel;

bending the cover plate of the third panel towards the inside of the cylinder body along crease lines of the side plate and the cover plate of the third panel, so that the cover plate of the third panel is parallel and opposite to the bottom plate of the third panel, and the first partition plate of the third panel is mutually inserted with the second partition plate of the second panel;

bending the cover plate of the second panel towards the inside of the cylinder body along crease lines of the side plate and the cover plate of the second panel so that the cover plate of the second panel covers the cover plate of the first panel, and the first partition plate of the second panel is mutually inserted with the first partition plate of the first panel;

the cover plate of the fourth panel is bent towards the inside of the barrel body along crease lines of the side plate of the fourth panel and the cover plate, so that the cover plate of the fourth panel covers the cover plate of the first panel, the first partition plate of the fourth panel is mutually spliced with the first partition plate of the first panel, the first partition plate of the fourth panel is attached to the first partition plate of the second panel, and the first partition plate of the third panel is attached to the second partition plate of the first panel.

Compared with the prior art, the invention has one or more of the following beneficial effects:

1. the packing box actually comprises two box covers and two box bottoms, so that the whole bearing capacity of the packing box is better, the box covers and the box bottoms are integrally spliced and sealed, the strength and the safety are improved compared with the case sealing by using an adhesive tape, the whole impact resistance and the extrusion resistance are improved, a plurality of insertion grids are formed by mutually splicing the first partition plates and the second partition plates on the four panels of the packing box, the use of partition plates or insertion pieces is omitted, the strength inside the box body is correspondingly improved, and the extrusion resistance in the box body is stronger.

2. The packing box disclosed by the invention forms a plurality of inserting grids by self, is integrally formed from top to bottom, is simple to assemble, can be sealed by self, does not need an adhesive tape, has higher strength, and is suitable for fruits with larger weight and poor extrusion resistance.

Drawings

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

FIG. 1 is a plan expanded view of the package of the present invention in one embodiment;

FIG. 2 is a folded view of the expanded view of FIG. 1;

fig. 3 is a folded state view obtained by further folding on the basis of fig. 2.

Wherein, 100-a first panel; 110 — a first baffle of a first panel; 120-a cover plate of the first panel; 130-side panels of the first panel; 140-the floor of the first panel; 150-a second baffle of the first panel; 200-a second panel; 300-a third panel; 400-a fourth panel; 500-a first bar-shaped groove; 510-a second strip groove; 520-a third strip groove; 530-a fourth slot; 600-a card slot; 700-air holes.

Detailed Description

The technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The gist of the present invention will be further explained below with reference to the accompanying drawings and examples.

Example (b):

referring to fig. 1-3, in order to solve the problems in the prior art, in one aspect, the present invention provides an upper-lower integrated multi-grid-insertion packing box, which includes a first panel 100, a second panel 200, a third panel 300, and a fourth panel 400, wherein the first panel 100, the second panel 200, the third panel 300, and the fourth panel 400 are sequentially provided with a first partition, a cover plate, a side plate, a bottom plate, and a second partition from top to bottom, and the first partition and the cover plate, the cover plate and the side plate, the side plate and the bottom plate, and the bottom plate and the second partition plate are connected by a crease line, as shown in fig. 1, fig. 1 is a planar expanded view of the packing box in an embodiment of the present invention.

Referring to fig. 2, fig. 2 is a folded state diagram of the unfolded drawing of fig. 1, side plates of the first panel 100, the second panel 200, the third panel 300 and the fourth panel 400 are sequentially connected to enclose a cylinder with openings at two ends, the first panel 100 and the third panel 300 are oppositely arranged, the second panel 200 and the fourth panel 400 are oppositely arranged, a bottom plate of the first panel 100 and a bottom plate of the third panel 300 are both bent towards the inner side of the cylinder to form a first layer bottom of the packing box, a bottom plate of the second panel 200 and a bottom plate of the fourth panel 400 are both bent towards the inner side of the cylinder to form a second layer bottom of the packing box, and the second layer bottom covers the first layer bottom. The two-layer box bottom of the packing box is thicker, the bearing capacity of the box body is improved, and the integral strength of the packing box is improved.

Further, in the present invention, the cover plate of the first panel 100 and the cover plate of the third panel 300 are both bent toward the inside of the cylinder to form a first cover of the packing box, the cover plate of the second panel 200 and the cover plate of the fourth panel 400 are both bent toward the inside of the cylinder to form a second cover of the packing box, and the second cover covers the first cover. Similarly, the two layers of box covers of the packing box are thicker, so that the bearing capacity of the box body is improved, and the integral strength of the packing box is improved.

Referring to fig. 3, the second partition board of the second panel 200 and the second partition board of the fourth panel 400 are respectively inserted into the second partition board of the first panel 100, and the second partition board of the second panel 200 and the second partition board of the fourth panel 400 are respectively inserted into the second partition board of the third panel 300, so as to form an insertion grid of the packing box. The packing box is integrally formed, the partition plates on the panels are mutually inserted to form the insertion grids, the positioning is firm, and compared with the insertion pieces on installation, the insertion grids have higher strength.

When the packing box of the invention is closed, the first partition board of the second panel 200 and the first partition board of the fourth panel 400 are respectively inserted with the first partition board of the first panel 100, and the first partition board of the second panel 200 and the first partition board of the fourth panel 400 are respectively inserted with the first partition board of the third panel 300, so as to form the insertion grid of the packing box. Therefore, the inserting grids of the packing box not only form inserting grids through the first partition plates connected with the panels, but also form inserting grids through the second partition plates connected with the panels, and the inserting grids are matched up and down to increase the number of the inserting grids of the packing box.

In an embodiment, the first panel 100, the second panel 200, the third panel 300, and the fourth panel 400 of the present invention are all rectangular panels, the shape and size of the first panel 100 and the third panel 300 are the same, and the shape and size of the second panel 200 and the fourth panel 400 are the same, so that the design can be combined to form a rectangular box, which is common and general.

In one embodiment, the sum of the length of the cover of the first panel 100 and the length of the cover of the third panel 300 is not greater than the width of the second panel 200, and the sum of the length of the bottom of the first panel 100 and the length of the bottom of the third panel 300 is not greater than the width of the second panel 200.

In one embodiment, the sum of the length of the cover plate of the second panel 200 and the length of the cover plate of the fourth panel 400 is equal to the width of the first panel 100, and the sum of the length of the base plate of the second panel 200 and the length of the base plate of the fourth panel 400 is equal to the width of the first panel 100.

In one embodiment, the length of the side plate on the first panel 100, the length of the side plate on the second panel 200, the length of the side plate on the third panel 300, and the length of the side plate on the fourth panel 400 are all equal, and the side plates of the first panel 100, the second panel 200, the third panel 300, and the fourth panel 400 are connected in sequence to form a cylinder with openings at two ends. Accordingly, the design is also designed to form a standard cuboid or cube packaging box.

With reference to fig. 1, in the figure, the first partition 110 of the first panel, the cover 120 of the first panel, the side panel 130 of the first panel, the bottom panel 140 of the first panel, and the second partition 150 of the first panel are connected in sequence by the crease lines from top to bottom, so as to form the first panel 100. In the drawing, the second panel 200, the third panel 300 and the fourth panel 400 are sequentially provided with a first partition, a cover plate, a side plate, a bottom plate and a second partition from top to bottom, and are sequentially connected with each other via a crease line, that is, the same as the first panel, but the reference numerals and space are not given in the drawing for the sake of reducing the reference numerals and space.

In one embodiment, referring to fig. 1, the first panel 100 is provided with a first strip-shaped groove 500 and a second strip-shaped groove 510, the first strip-shaped groove 500 on the first panel 100 extends vertically from the crease lines of the cover and side panels on the first panel 100 to the first partition on the first panel 100; the second strip-shaped groove 510 of the first panel 100 extends vertically from the crease lines of the bottom and side panels of the first panel 100 to the second partition of the first panel 100. The first strip-shaped groove and the second strip-shaped groove are designed to enable panels to be inserted into each other to form an insertion grid.

Further, a third strip-shaped groove 520 and a fourth strip-shaped groove 530 are formed in the third panel 300, and the third strip-shaped groove 520 in the third panel 300 vertically extends from the crease lines of the cover plate and the side plate in the third panel 300 to the first partition plate in the third panel 300; the fourth groove 530 of the third panel 300 extends vertically from the crease lines of the side panels and the bottom panel of the third panel 300 to the second partition of the third panel 300. This also provides a gap for inserting between the panels, which is the basis for realizing the folding of the box body.

In an embodiment, the distance from the central axis of the first strip-shaped groove 500 on the first panel 100 to the central axis of the second panel 200 is equal to the distance from the central axis of the third strip-shaped groove 520 on the third panel 300 to the central axis of the second panel 200, and such a design is adopted that the first strip-shaped groove of the first panel and the third strip-shaped groove of the third panel are positioned on a straight line after the box body is folded, so that the first partition board of the second panel can be conveniently inserted; the distance from the central axis of the second strip-shaped groove 510 on the first panel 100 to the central axis of the second panel 200 is equal to the distance from the central axis of the fourth strip-shaped groove 530 on the third panel 300 to the central axis of the second panel 200, and such design is to make the insertion connection of the second partition board of the second panel convenient when the third strip-shaped groove of the first panel and the fourth strip-shaped groove of the third panel are in a straight line after the box body is folded.

In an embodiment, one or more clamping grooves 600 are disposed on the first partition board on each of the first panel 100, the second panel 200, the third panel 300, and the fourth panel 400, the clamping groove 600 is disposed on one side of the first partition board away from the cover plate, the clamping groove 600 is a strip-shaped groove formed by inward recessing from the edge of the partition board, and the clamping groove 600 is used for being mutually inserted into the first partition board and the second partition board on each panel to form a plurality of insertion cells and maintain the strength and stability between the insertion cells.

Further, the distance between the central axis of the card slot 600 on the first partition of the first panel 100 and the central axis of the second panel 200 is equal to the distance between the central axis of the card slot 600 on the first partition of the third panel 300 and the central axis of the second panel 200. The design can be after the box folding the draw-in groove 600 on the first baffle of first panel 100 and the draw-in groove 600 on the first baffle of third panel 300 can peg graft each other with the second baffle of fourth panel, form and insert the check.

In one embodiment, the shape and size of the first partition of the second panel 200 of the present invention are the same as those of the first partition of the fourth panel 400, and the position and size of the card slot 600 on the first partition of the second panel 200 are the same as those of the card slot 600 on the first partition of the fourth panel 400; the shape and position distribution of the card slots 600 on the first partition of the second panel 200 is consistent with the shape and position distribution of the card slots 600 on the second partition of the second panel 200; the shape and position distribution of the clamping groove 600 on the first partition board of the fourth panel 400 is consistent with the shape and position distribution of the clamping groove 600 on the second partition board of the fourth panel 400, and the reservation of the clamping groove 600 can provide a plugging point for contraposition plugging when the packing box is folded.

In one embodiment, the length of the first strip-shaped groove 500 on the first panel 100 extending to the first partition of the first panel 100 is the same as the length of one card slot 600 on the first partition of the second panel 200, the length of the second strip-shaped groove 510 on the first panel 100 extending to the second partition of the first panel 100 is the same as the length of one card slot 600 on the second partition of the second panel 200, the length of the third strip-shaped groove 520 on the third panel 300 extending to the first partition of the third panel 300 is the same as the length of one card slot 600 on the first partition of the second panel 200, and the length of the fourth strip-shaped groove 530 on the third panel 300 extending to the second partition of the third panel 300 is the same as the length of one card slot 600 on the second partition of the second panel 200.

In an embodiment, in the present invention, the card slot 600 on the second partition of the second panel 200 is inserted into the second strip-shaped slot 510 on the first panel 100, and the card slot 600 on the second partition of the second panel 200 is inserted into the fourth strip-shaped slot 530 on the third panel 300, and the second partition of the second panel 200 is attached to the second partition of the fourth panel 400; the clamping groove 600 on the first partition of the second panel 200 is inserted into the first strip-shaped groove 500 on the first panel 100, and the clamping groove 600 on the first partition of the second panel 200 is inserted into the third strip-shaped groove 520 on the third panel 300, and the first partition on the second panel 200 is attached to the first partition on the fourth panel 400; the second partition of the second panel 200 is separated by the second partition of the first panel 100 and the second partition of the third panel 300, and the second partition of the fourth panel 400 is separated by the second partition of the first panel 100 and the second partition of the third panel 300, so as to form a plurality of insert cells.

In one embodiment, the first partition board of the first panel 100 and the first partition board of the third panel 300 are respectively inserted into the second partition board of the second panel 200, the first partition board of the first panel 100 and the first partition board of the third panel 300 are respectively inserted into the second partition board of the fourth panel 400, and the first partition board of the third panel 300 is attached to the second partition board of the first panel 100.

In one embodiment, the bottom plate of the first panel 100 of the present invention is provided with air holes 700, and the cover plate of the third panel 300 is provided with air holes 700. The reservation of the air holes can keep the air in the packing box to permeate.

In one embodiment, the shape of the ventilation hole 700 may be one or a combination of semicircular, triangular, rectangular and trapezoidal shapes, and the shape of the ventilation hole 700 may be any shape which mainly plays the same role of promoting air circulation, and thus may be any shape as long as it can fulfill the function.

On the other hand, the invention also provides a use method of the upper and lower integrated multi-insert-lattice packing box, which comprises the following steps:

the side plates of the first panel 100, the second panel 200, the third panel 300 and the fourth panel 400 of the packing box are connected in sequence to form a cylinder body, as shown in figure 2,

the bottom plate of the first panel 100 is bent toward the inside of the can body along the crease lines of the side plates and the bottom plate of the first panel 100, so that the bottom plate of the first panel 100 is perpendicular to the side plates of the first panel 100, and the second partition plate of the first panel 100 is parallel to and opposite to the side plates of the first panel 100,

the bottom plate of the third panel 300 is bent toward the inside of the cylinder along the crease line between the side plate and the bottom plate of the third panel 300, so that the bottom plate of the third panel 300 is perpendicular to the side plate of the third panel 300, and the second partition plate of the third panel 300 is parallel to and opposite to the side plate of the third panel 300,

the bottom plate of the second panel 200 is bent toward the inside of the can body along the crease lines of the side plates and the bottom plate of the second panel 200, so that the bottom plate of the second panel 200 is covered on the bottom plate of the first panel 100, and the second partition plate of the second panel 200 is parallel to and opposite to the side plates of the second panel 200,

the bottom plate of the fourth panel 400 is bent toward the inside of the can body along the crease lines of the side plates and the bottom plate of the fourth panel 400, so that the bottom plate of the fourth panel 400 covers the bottom plate of the first panel 100, the second partition plate of the fourth panel 400 is parallel and opposite to the side plate of the fourth panel 400, and the second partition plate of the fourth panel 400 is attached to the second partition plate of the second panel 200,

the second partition board of the second panel 200 and the second partition board of the fourth panel 400 are respectively inserted into the second partition board of the first panel 100, and the second partition board of the second panel 200 and the second partition board of the fourth panel 400 are respectively inserted into the second partition board of the third panel 300 to form the insertion grid of the packing box.

The cover plate of the first panel 100 is bent towards the inside of the cylinder body along the crease lines of the side plates and the cover plate of the first panel 100, so that the cover plate of the first panel 100 is parallel and opposite to the bottom plate of the first panel 100, and the first partition plate of the first panel 100 is inserted into the second partition plate of the second panel 200,

the cover plate of the third panel 300 is bent toward the inside of the cylinder body along the crease lines of the side plates and the cover plate of the third panel 300, so that the cover plate of the third panel 300 is parallel and opposite to the bottom plate of the third panel 300, and the first partition plate of the third panel 300 is inserted into the second partition plate of the second panel 200,

the cover plate of the second panel 200 is bent toward the inside of the cylinder body along the crease lines of the side plates and the cover plate of the second panel 200, so that the cover plate of the second panel 200 covers the cover plate of the first panel 100, and the first partition plate of the second panel 200 is inserted into the first partition plate of the first panel 100,

the edge the curb plate of fourth panel 400 is bent towards the inside barrel with the apron of fourth panel 400 towards the crease line department of apron to make the apron of fourth panel 400 cover on the apron of first panel 100, just the first baffle of fourth panel 400 with the first baffle of first panel 100 is pegged graft each other, the first baffle of fourth panel 400 with the first baffle of second panel 200 pastes, the first baffle of third panel 300 with the second baffle of first panel 100 pastes mutually.

The folded packing box provided by the invention actually comprises two layers of box covers and two layers of box bottoms, so that the whole bearing capacity of the packing box is better, the box covers and the box bottoms are integrally spliced and sealed, the strength and the safety are improved compared with the case sealing by using an adhesive tape, the whole impact resistance and extrusion capacity are improved, a plurality of inserting grids are formed by mutually splicing the first partition plates and the second partition plates on the four panels of the packing box, the use of partition plates or inserting pieces is omitted, the strength inside the box body is correspondingly improved, and the extrusion resistance in the box body is stronger.

In conclusion, the packing box disclosed by the invention forms a plurality of inserting grids by self, is integrally formed from top to bottom, is simple to assemble, can be sealed by self, does not need an adhesive tape, is high in strength, is suitable for fruits with large weight and poor extrusion resistance, fully utilizes the space, and is simple in packaging and using method.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example" or "some examples" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples described in this specification can be combined and combined by one skilled in the art.

While embodiments of the present invention have been shown and described above, it is to be understood that the above embodiments are exemplary and not to be construed as limiting the present invention, and that changes, modifications and variations may be made therein by those of ordinary skill in the art within the scope of the present invention.

Claims (10)

1. An upper and lower integrated packing box with multiple inserting grids is characterized in that,

which comprises a first panel (100), a second panel (200), a third panel (300) and a fourth panel (400), wherein the first panel (100), the second panel (200), the third panel (300) and the fourth panel (400) are sequentially provided with a first clapboard, a cover plate, a side plate, a bottom plate and a second clapboard from top to bottom, the first clapboard and the cover plate, the cover plate and the side plate, the side plate and the bottom plate are connected through crease lines,

the side plates of the first panel (100), the second panel (200), the third panel (300) and the fourth panel (400) are sequentially connected to form a cylinder body with openings at two ends, the first panel (100) and the third panel (300) are oppositely arranged, the second panel (200) and the fourth panel (400) are oppositely arranged, the bottom plate of the first panel (100) and the bottom plate of the third panel (300) are both bent towards the inner side of the cylinder body to form a first layer box bottom of the packing box, the bottom plate of the second panel (200) and the bottom plate of the fourth panel (400) are both bent towards the inner side of the cylinder body to form a second layer box bottom of the packing box, and the second layer box bottom covers the first layer box bottom,

the cover plate of the first panel (100) and the cover plate of the third panel (300) are both bent towards the inner side of the cylinder body to form a first layer of box cover of the packing box, the cover plate of the second panel (200) and the cover plate of the fourth panel (400) are both bent towards the inner side of the cylinder body to form a second layer of box cover of the packing box, the second layer of box cover covers the first layer of box cover,

the second partition board of the second panel (200) and the second partition board of the fourth panel (400) are respectively inserted with the second partition board of the first panel (100), and the second partition board of the second panel (200) and the second partition board of the fourth panel (400) are respectively inserted with the second partition board of the third panel (300) to form an insertion grid of the packing box;

the first partition board of the second panel (200) and the first partition board of the fourth panel (400) are respectively spliced with the first partition board of the first panel (100), and the first partition board of the second panel (200) and the first partition board of the fourth panel (400) are respectively spliced with the first partition board of the third panel (300) to form the insertion grids of the packing box.

2. The multi-grid packing case as claimed in claim 1,

the first panel (100), the second panel (200), the third panel (300) and the fourth panel (400) are all rectangular panels, the first panel (100) and the third panel (300) are the same in shape and size, the second panel (200) and the fourth panel (400) are the same in shape and size,

the sum of the length of the cover plate of the first panel (100) and the length of the cover plate of the third panel (300) is not greater than the width of the second panel (200), and the sum of the length of the base plate of the first panel (100) and the length of the base plate of the third panel (300) is not greater than the width of the second panel (200);

the sum of the length of the cover of the second panel (200) and the length of the cover of the fourth panel (400) is equal to the width of the first panel (100), and the sum of the length of the base of the second panel (200) and the length of the base of the fourth panel (400) is equal to the width of the first panel (100);

the length of the side plate on the first panel (100), the length of the side plate on the second panel (200), the length of the side plate on the third panel (300) and the length of the side plate on the fourth panel (400) are equal, and the side plates of the first panel (100), the second panel (200), the third panel (300) and the fourth panel (400) are sequentially connected to form a cylinder body with openings at two ends.

3. The multi-grid packing case as claimed in claim 1,

the first panel (100) is provided with a first strip-shaped groove (500) and a second strip-shaped groove (510),

a first strip-shaped channel (500) on the first panel (100) extends vertically from the crease lines of the lid and side panels on the first panel (100) to a first divider on the first panel (100),

a second strip-shaped groove (510) on the first panel (100) vertically extends from the crease lines of the bottom plate and the side plate on the first panel (100) to a second partition plate on the first panel (100);

a third strip-shaped groove (520) and a fourth strip-shaped groove (530) are arranged on the third panel (300),

a third strip-shaped groove (520) on the third panel (300) extends vertically from the crease lines of the cover and side panels on the third panel (300) to the first partition on the third panel (300);

a fourth groove (530) in the third panel (300) extends vertically from the crease lines of the side and bottom panels in the third panel (300) to the second divider panel in the third panel (300).

4. A top-bottom integrated multi-cell packing case according to claim 3,

the distance from the central axis of the first strip-shaped groove (500) on the first panel (100) to the central axis of the second panel (200) is equal to the distance from the central axis of the third strip-shaped groove (520) on the third panel (300) to the central axis of the second panel (200);

the distance from the central axis of the second strip-shaped groove (510) on the first panel (100) to the central axis of the second panel (200) is equal to the distance from the central axis of the fourth strip-shaped groove (530) on the third panel (300) to the central axis of the second panel (200).

5. The multi-grid packing case as claimed in claim 4,

one or more clamping grooves are formed in the first partition boards on the first panel (100), the second panel (200), the third panel (300) and the fourth panel (400), the clamping grooves are formed in one side, far away from the cover plate, of the first partition board, and the clamping grooves are strip-shaped grooves formed by inwards sinking from the edges of the partition boards;

the distance between the central axis of the clamping groove on the first partition of the first panel (100) and the central axis of the second panel (200) is equal to the distance between the central axis of the clamping groove on the first partition of the third panel (300) and the central axis of the second panel (200);

the shape and the size of the first partition board of the second panel (200) are the same as those of the first partition board of the fourth panel (400), and the position and the size of the clamping groove on the first partition board of the second panel (200) are the same as those of the clamping groove on the first partition board of the fourth panel (400);

the shape and position distribution of the clamping grooves on the first partition board of the second panel (200) is consistent with the shape and position distribution of the clamping grooves on the second partition board of the second panel (200); the shape and position distribution of the clamping grooves on the first partition board of the fourth panel (400) is consistent with the shape and position distribution of the clamping grooves on the second partition board of the fourth panel (400).

6. A top-bottom integrated multi-grid packing case as claimed in claim 5,

the length of the first strip-shaped groove (500) on the first panel (100) extending to the first clapboard of the first panel (100) is consistent with the length of one clamping groove on the first clapboard of the second panel (200),

the length of the second strip-shaped groove (510) on the first panel (100) extending to the second clapboard of the first panel (100) is consistent with the length of one clamping groove on the second clapboard of the second panel (200),

the length of the third strip-shaped groove (520) on the third panel (300) extending to the first clapboard of the third panel (300) is consistent with the length of one clamping groove on the first clapboard of the second panel (200),

the length of the fourth strip-shaped groove (530) on the third panel (300) extending to the second partition of the third panel (300) is consistent with the length of a clamping groove on the second partition of the second panel (200);

a clamping groove on a second partition plate of the second panel (200) is inserted into a second strip-shaped groove (510) on the first panel (100), a clamping groove on the second partition plate of the second panel (200) is inserted into a fourth strip-shaped groove (530) on the third panel (300), and the second partition plate on the second panel (200) is attached to the second partition plate on the fourth panel (400);

the clamping groove on the first partition of the second panel (200) is inserted into the first strip-shaped groove (500) on the first panel (100), the clamping groove on the first partition of the second panel (200) is inserted into the third strip-shaped groove (520) on the third panel (300), and the first partition on the second panel (200) is attached to the first partition on the fourth panel (400);

the second partition of the second panel (200) is separated by a second partition on the first panel (100) and a second partition on the third panel (300), and the second partition of the fourth panel (400) is separated by a second partition on the first panel (100) and a second partition on the third panel (300).

7. The multi-grid packing case as claimed in claim 6,

the first baffle of first panel (100) and the first baffle of third panel (300) peg graft each other with the second baffle of second panel (200) respectively, the first baffle of first panel (100) and the first baffle of third panel (300) peg graft each other with the second baffle of fourth panel (400) respectively, the first baffle of third panel (300) with the second baffle of first panel (100) is laminated mutually.

8. The multi-grid packing case as claimed in claim 1,

the bottom plate of the first panel (100) is provided with air holes (700), and the cover plate of the third panel (300) is provided with air holes (700).

9. The use method of the upper and lower integrated multi-insert-lattice packing box is characterized by comprising the following steps of:

the side plates of a first panel (100), a second panel (200), a third panel (300) and a fourth panel (400) of the packing box are connected in sequence to form a cylinder body,

the bottom plate of the first panel (100) is bent towards the inside of the cylinder body along crease lines of the side plate and the bottom plate of the first panel (100), so that the bottom plate of the first panel (100) is perpendicular to the side plate of the first panel (100), and the second partition plate of the first panel (100) is parallel and opposite to the side plate of the first panel (100),

the bottom plate of the third panel (300) is bent towards the inside of the cylinder body along the crease lines of the side plates and the bottom plate of the third panel (300), so that the bottom plate of the third panel (300) is perpendicular to the side plates of the third panel (300), and the second partition plate of the third panel (300) is parallel to and opposite to the side plates of the third panel (300),

the bottom plate of the second panel (200) is bent towards the inside of the cylinder body along the crease lines of the side plates and the bottom plate of the second panel (200), so that the bottom plate of the second panel (200) is covered on the bottom plate of the first panel (100), and the second partition plate of the second panel (200) is opposite to the side plate of the second panel (200) in parallel,

the bottom plate of the fourth panel (400) is bent towards the inside of the cylinder body along crease lines of the side plates and the bottom plate of the fourth panel (400), so that the bottom plate of the fourth panel (400) covers the bottom plate of the first panel (100), the second partition plate of the fourth panel (400) is parallel and opposite to the side plate of the fourth panel (400), and the second partition plate of the fourth panel (400) is attached to the second partition plate of the second panel (200),

the second partition board of the second panel (200) and the second partition board of the fourth panel (400) are respectively inserted with the second partition board of the first panel (100), and the second partition board of the second panel (200) and the second partition board of the fourth panel (400) are respectively inserted with the second partition board of the third panel (300) to form the insertion grids of the packing box.

10. The use method of the upper and lower integrated multi-grid-insertion packing box according to claim 9, further comprising:

the cover plate of the first panel (100) is bent towards the inside of the cylinder body along crease lines of the side plates and the cover plate of the first panel (100), so that the cover plate of the first panel (100) is parallel and opposite to the bottom plate of the first panel (100), and the first partition plate of the first panel (100) is inserted into the second partition plate of the second panel (200),

the cover plate of the third panel (300) is bent towards the inside of the cylinder body along the crease lines of the side plates and the cover plate of the third panel (300), so that the cover plate of the third panel (300) is parallel and opposite to the bottom plate of the third panel (300), and the first partition plate of the third panel (300) is inserted with the second partition plate of the second panel (200),

the cover plate of the second panel (200) is bent towards the inside of the cylinder body along crease lines of the side plates and the cover plate of the second panel (200), so that the cover plate of the second panel (200) covers the cover plate of the first panel (100), and the first partition plate of the second panel (200) is inserted with the first partition plate of the first panel (100),

the cover plate of the fourth panel (400) is bent towards the inside of the cylinder body along crease lines of the side plate of the fourth panel (400) and the cover plate, so that the cover plate of the fourth panel (400) covers the cover plate of the first panel (100), the first partition plate of the fourth panel (400) is spliced with the first partition plate of the first panel (100), the first partition plate of the fourth panel (400) is attached to the first partition plate of the second panel (200), and the first partition plate of the third panel (300) is attached to the second partition plate of the first panel (100).

Images