CN219383321U - Plastic packaging box for copper foil, aluminum foil and diaphragm coiled material - Google Patents

Abstract

The utility model belongs to the technical field of copper foil and aluminum foil storage and transportation, and particularly discloses a copper foil and aluminum foil diaphragm coiled material plastic packaging box which comprises a bottom bracket, supporting structures, splicing blocks, a middle liner and an upper pressing plate, wherein two supporting structures are symmetrically arranged above the bottom bracket and close to the end part, a plurality of splicing blocks are symmetrically arranged between the two supporting structures, and a base plate is arranged on each supporting structure; the support structure comprises a first support block and a second support block, wherein a connecting clamping block is arranged on the side edge of the first support block, a connecting clamping groove is arranged on the side edge of the second support block, first through grooves are formed in the first support block and the second support block, a first connecting plate and a second connecting plate are respectively arranged on opposite surfaces of the first support block and the second support block, a butt joint groove is formed in the first connecting plate, and a butt joint block matched with the butt joint groove is arranged on the second connecting plate; the splice block both ends are provided with forked tail fixture block and forked tail draw-in groove respectively to the second link up the groove has been seted up on the splice block.

Description

Plastic packaging box for copper foil, aluminum foil and diaphragm coiled material

Technical Field

The utility model relates to the technical field of storage and transportation of copper foil and aluminum foil, in particular to a plastic packaging box for a copper foil and aluminum foil diaphragm coiled material.

Background

The aluminum foil and the copper foil are mainly produced by a rolling or electrolysis process, and are expensive, so that the phenomenon of breakage can occur once the aluminum foil and the copper foil are stored improperly, and people can roll the aluminum foil and the copper foil into foil rolls and then transport the foil rolls by using a packing box.

The existing copper foil aluminum foil is generally packaged by adopting a wooden box, but people can quickly find that the cost required by the transportation of the wooden box is high, wood dust in the wooden box is easy to pollute products, iron nails are required to be used for fixing the wooden box during installation, and the copper foil aluminum foil in the packing box can be damaged by adopting the iron nails for fixing, so that people can generally use a plastic packing box to package and transport the wooden box.

However, the existing plastic packaging box for the copper foil aluminum foil diaphragm coiled material can be found in the practical process, when the plastic packaging box is generally practical, the diaphragm coiled material is limited by adopting the middle lining support, but the middle lining support used by the general packaging box is fixed in size and can only be used for packaging and transporting coiled materials with specific size, so that the plastic packaging box is greatly limited when in use, and the plastic packaging box is difficult to be suitable for coiled materials with different sizes.

Disclosure of Invention

The utility model aims to provide a plastic packaging box with copper foil, aluminum foil and diaphragm coiled materials, which solves the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the plastic packaging box comprises a bottom support, a supporting structure, splicing blocks, a middle lining and an upper pressing plate, wherein two supporting structures are symmetrically arranged above the bottom support and close to the end part, a plurality of splicing blocks are symmetrically arranged between the two supporting structures, a base plate is arranged on the supporting structure, the middle lining is arranged above the base plate, and the upper pressing plate is arranged above the middle lining; the support structure comprises a first support block and a second support block, wherein a connecting clamping block is arranged on the side edge of the first support block, a connecting clamping groove is formed in the side edge of the second support block, first through grooves are formed in the first support block and the second support block, a first connecting plate and a second connecting plate are respectively arranged on opposite surfaces of the first support block and the second support block, a limiting clamping column is arranged above the first connecting plate and the second connecting plate, a butting groove is formed in the first connecting plate, a butting block matched with the butting groove is arranged on the second connecting plate, the butting block is embedded in the butting groove to connect the first support block and the second support block, and the first support block and the second support block are fixed on a base through bolts; the splice both ends are provided with forked tail fixture block and forked tail draw-in groove respectively to having seted up the second on the splice and having link up the groove, the forked tail fixture block is the same with connecting the fixture block specification, and the forked tail draw-in groove is the same with connecting the card groove specification, and the forked tail fixture block card of one splice is established and is connected gradually the formation bar structure in the forked tail draw-in groove of another splice, and the fixed bar structure on connecting the draw-in groove and the connection fixture block is established to the forked tail fixture block and the forked tail draw-in groove at bar structure both ends respectively card, strengthens square pipe and inserts and establish at first through groove and second and link up inslot additional strengthening bearing structure and splice.

Preferably, second limit clamping grooves matched with the limit clamping columns are symmetrically formed in two ends of the base plate, the base plate is mutually attached to the first connecting plate and the second connecting plate, the second limit clamping grooves are clamped on the limit clamping columns to limit the base plate, and the height of the middle lining can be increased by increasing the base plate.

Preferably, first limiting clamping grooves matched with the limiting clamping columns are symmetrically formed in the two sides of the middle substrate, the first limiting clamping grooves are clamped on the limiting clamping columns to limit the middle substrate, and the middle substrate and the base plate are mutually attached.

Preferably, the opposite ends of the middle lining and the upper pressing plate are respectively provided with a first placing groove and a second placing groove, the first placing groove and the second placing groove are respectively provided with first polyurethane and second polyurethane, and the first placing groove and the second placing groove are used for placing the tube cores of the copper foil aluminum foil diaphragm coiled materials.

Preferably, the middle lining is symmetrically provided with connecting slots on the side edge of the first placing slot, the bottom of the upper pressing plate is provided with connecting plug blocks matched with the connecting slots on the side edge of the second placing slot, and the connecting plug blocks are inserted into the connecting slots to limit the tube core.

Preferably, the collet side is provided with the bounding wall, and the bounding wall top is provided with the apron, apron and the mutual joint of bounding wall to a plurality of restriction recesses have been seted up on the apron.

Preferably, a plurality of limiting convex blocks matched with the limiting grooves are arranged at the top of the upper pressing plate, and the limiting convex blocks are inserted into the limiting grooves to limit the cover plate.

Compared with the prior art, the utility model has the beneficial effects that: according to the utility model, the support structure can be fixed on the base through bolts according to the specification of the base, then the splicing blocks are spliced in sequence according to the requirement, finally the spliced splicing blocks are fixed on the support structure so as to be suitable for copper foil aluminum foil diaphragm coiled materials with different sizes, then the base plate is clamped on the support structure, then the middle lining is fixed above the base plate, the tube core of the coiled material can be placed in the first placing groove, then the second placing groove of the upper pressing plate is reversely buckled on the tube core, the coiled material can be limited, the plastic packaging box is very convenient, and the plastic packaging box can be suitable for copper foil aluminum foil diaphragm coiled materials with different sizes, and the practicability of the plastic packaging box is improved.

Drawings

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

FIG. 2 is a schematic view of the structure of the removed coaming of the present utility model;

FIG. 3 is a schematic diagram of an explosive structure according to the present utility model;

FIG. 4 is a schematic diagram of a removed liner structure of the present utility model;

FIG. 5 is a schematic view of a splice block according to the present utility model.

In the figure: 1. a bottom support; 2. coaming plate; 3. a cover plate; 301. a limiting groove; 4. a middle lining; 401. a first receiving groove; 402. a first polyurethane; 403. a connection slot; 404. a first limiting slot; 5. an upper press plate; 501. a second receiving groove; 502. a second polyurethane; 503. connecting the plug blocks; 504. limiting the bump; 6. a backing plate; 601. a second limiting slot; 7. a support structure; 701. a first support block; 7011. connecting a clamping block; 7012. a first connection plate; 7013. a butt joint groove; 702. a second support block; 7021. a connecting clamping groove; 7022. a second connecting plate; 7023. a butt joint block; 703. limiting the clamping column; 704. a first through groove; 8. splicing blocks; 801. dovetail clamping grooves; 802. dovetail clamping blocks; 803. a second through groove; 9. reinforcing the square tube.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the azimuth or positional relationship indicated by the terms "vertical", "upper", "lower", "horizontal", etc. are based on the azimuth or positional relationship shown in the drawings, and are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Referring to fig. 1-5, the present utility model provides a technical solution: a copper foil aluminium foil diaphragm coiled material plastic packaging box is characterized in that: the support structure comprises a bottom support 1, a support structure 7, splicing blocks 8, a reinforcing square tube 9, a middle lining 4 and an upper pressing plate 5, wherein two support structures 7 are symmetrically arranged above the bottom support 1 and close to the end part, a plurality of splicing blocks 8 are symmetrically arranged between the two support structures 7, a base plate 6 is arranged on the support structure 7, the middle lining 4 is arranged above the base plate 6, and the upper pressing plate 5 is arranged above the middle lining 4; the support structure 7 comprises a first support block 701 and a second support block 702, a connecting clamping block 7011 is arranged on the side edge of the first support block 701, a connecting clamping groove 7021 is arranged on the side edge of the second support block 702, a first through groove 704 is formed in each of the first support block 701 and the second support block 702, a first connecting plate 7012 and a second connecting plate 7022 are respectively arranged on opposite surfaces of the first support block 701 and the second support block 702, a limiting clamping column 703 is arranged above each of the first connecting plate 7012 and the second connecting plate 7022, a butting groove 7013 is formed in each of the first connecting plate 7012, a butting block 7023 matched with the butting groove 7013 is arranged on the second connecting plate 7022, the butting block 7023 is embedded in the butting groove 7013 to connect the first support block 701 and the second support block 702, and the first support block 701 and the second support block 702 are fixed on the base 1 through bolts; the splice block 8 both ends are provided with forked tail fixture block 802 and forked tail draw-in groove 801 respectively to offer the second on the splice block 8 and link up the groove 803, forked tail fixture block 802 is the same with connecting fixture block 7011 specification, and forked tail draw-in groove 801 is the same with connecting card groove 7021 specification, and forked tail fixture block 802 card of one splice block 8 is established and is connected gradually the formation bar structure in the forked tail draw-in groove 801 of another splice block 8, and fixed bar structure on connecting card groove 7021 and connecting fixture block 7011 is established respectively to forked tail fixture block 802 and forked tail draw-in groove 801 at bar structure both ends, strengthens square pipe 9 and inserts and establishes in first through groove 704 and second through groove 803 strengthens bearing structure 7 and splice block 8 stability.

Further, the two ends of the pad 6 are symmetrically provided with second limiting clamping grooves 601 adapted to the limiting clamping columns 703, the pad 6 is mutually attached to the first connecting plate 7012 and the second connecting plate 7022, and the second limiting clamping grooves 601 are clamped on the limiting clamping columns 703 to limit the pad 6, so that the height of the middle lining 4 can be increased by increasing the pad 6.

Further, first limiting clamping grooves 404 adapted to the limiting clamping columns 703 are symmetrically formed at two sides of the bottom of the middle lining 4, the first limiting clamping grooves 404 are clamped on the limiting clamping columns 703 to limit the middle lining 4, and the bottom of the middle lining 4 is mutually attached to the backing plate 6.

Further, a first placing groove 401 and a second placing groove 501 are respectively formed at opposite ends of the middle lining 4 and the upper pressing plate 5, a first polyurethane 402 and a second polyurethane 502 are respectively arranged in the first placing groove 401 and the second placing groove 501, and the first placing groove 401 and the second placing groove 501 are used for placing a tube core of the copper foil aluminum foil diaphragm coiled material.

Further, the middle liner 4 is symmetrically provided with connection slots 403 on the side of the first placement slot 401, and connection plugs 503 adapted to the connection slots 403 are provided on the bottom of the upper pressing plate 5 on the side of the second placement slot 501, and the connection plugs 503 are inserted into the connection slots 403 to limit the die.

Further, the collet 1 side is provided with bounding wall 2, and bounding wall 2 top is provided with apron 3, apron 3 and the mutual joint of bounding wall 2 to a plurality of restriction recess 301 have been seted up on the apron 3.

Further, a plurality of limiting protrusions 504 adapted to the limiting grooves 301 are provided on the top of the upper pressing plate 5, and the limiting protrusions 504 are inserted into the limiting grooves 301 to limit the cover plate 3.

Working principle: when the aluminum foil membrane is used, only the butt joint block 7023 on the second connecting plate 7022 is clamped in the butt joint groove 7013 on the first connecting plate 7012, the first supporting block 701 and the second supporting block 702 are connected, then the second connecting plate 7022 and the first connecting plate 7012 can be fixed on the base 1 through bolts, at the moment, the supporting structure 7 can be installed, then the dovetail clamping blocks 802 on one splicing block 8 are clamped in the dovetail clamping grooves 801 of the other splicing block 8, connection among the plurality of splicing blocks 8 is achieved, then the plurality of splicing blocks 8 are spliced in sequence according to requirements, finally the dovetail clamping blocks 802 and the dovetail clamping grooves 801 on the two end splicing blocks 8 are respectively clamped in the connecting clamping grooves 7021 and the connecting clamping blocks 7011, so that a square shape is formed, and finally the reinforcing square pipe 9 penetrates through the first through grooves 704 on the first supporting block 701 and the second through grooves 803 on the splicing blocks 8 to improve stability, and the aluminum foil membrane membranes with different sizes are spliced and combined according to requirements through the plurality of splicing blocks 8.

Then, the second limiting clamping grooves 601 at two ends of the backing plate 6 are clamped on the limiting clamping columns 703, the backing plate 6 is pressed downwards to be in contact with the first connecting plate 7012 and the second connecting plate 7022, then the first limiting clamping grooves 404 on the middle lining 4 are clamped on the limiting clamping columns 703 and are pressed to be in contact with the backing plate 6, the tube cores of the copper foil aluminum foil diaphragm coiled materials are placed in the first placing grooves 401, then the second placing grooves 501 of the upper pressing plate 5 are reversely buckled on the tube cores, the connecting inserting blocks 503 are inserted into the connecting inserting grooves 403, coiled materials are limited, the surrounding plate 2 can be very conveniently surrounded on the base 1 finally, then the cover plate 3 is covered on the surrounding plate 2, the limiting protruding blocks 504 on the upper pressing plate 5 are inserted into the corresponding limiting grooves 301 on the cover plate 3, friction force is increased by using the first polyurethane 402 and the second polyurethane 502 in the use process, and the autorotation phenomenon in the transportation process is prevented.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A copper foil aluminium foil diaphragm coiled material plastic packaging box is characterized in that: the novel square tube type steel wire rope bending machine comprises a bottom support (1), supporting structures (7), splicing blocks (8), reinforcing square tubes (9), a middle lining (4) and an upper pressing plate (5), wherein two supporting structures (7) are symmetrically arranged at positions, close to the end parts, above the bottom support (1), a plurality of splicing blocks (8) are symmetrically arranged between the two supporting structures (7), a base plate (6) is arranged on each supporting structure (7), the middle lining (4) is arranged above the base plate (6), and the upper pressing plate (5) is arranged above the middle lining (4); the support structure (7) comprises a first support block (701) and a second support block (702), a connecting clamping block (7011) is arranged on the side edge of the first support block (701), a connecting clamping groove (7021) is arranged on the side edge of the second support block (702), a first through groove (704) is formed in each of the first support block (701) and the second support block (702), a first connecting plate (7012) and a second connecting plate (7022) are respectively arranged on opposite surfaces of the first support block (701) and the second support block (702), limiting clamping columns (703) are arranged above the first connecting plate (7012) and the second connecting plate (7022), a butting groove (7013) is formed in each first connecting plate (7012), a butting block (7023) matched with the butting groove (7013) is arranged on each second connecting plate (7022), the butting blocks (7023) are embedded in the butting grooves (7013) to connect the first support block (701) and the second support block (702), and the first support block (701) and the second support block (702) are fixed on a base (1) through bolts; dovetail clamping blocks (802) and dovetail clamping grooves (801) are respectively arranged at two ends of each splicing block (8), second through grooves (803) are formed in the splicing blocks (8), the dovetail clamping blocks (802) of one splicing block (8) are clamped in the dovetail clamping grooves (801) of the other splicing block (8) in sequence to form a strip-shaped structure, the dovetail clamping blocks (802) and the dovetail clamping grooves (801) at two ends of the strip-shaped structure are respectively clamped in the connecting clamping grooves (7021) and the connecting clamping blocks (7011) to fix the strip-shaped structure, and reinforcing square pipes (9) are inserted in the first through grooves (704) and the second through grooves (803) to reinforce the stability of the supporting structures (7) and the splicing blocks (8).

2. The plastic packaging box for copper foil aluminum foil diaphragm coiled materials according to claim 1, wherein: second restriction draw-in groove (601) with restriction card post (703) adaptation are seted up to backing plate (6) both ends symmetry, backing plate (6) are laminated each other with first connecting plate (7012) and second connecting plate (7022), and restriction backing plate (6) on restriction card post (703) are established to second restriction draw-in groove (601) card.

3. The plastic packaging box for copper foil aluminum foil diaphragm coiled materials according to claim 1, wherein: first restriction clamping grooves (404) matched with the restriction clamping columns (703) are symmetrically formed in the positions of two sides of the bottom of the middle lining (4), the first restriction clamping grooves (404) are clamped on the restriction clamping columns (703) to restrict the middle lining (4), and the bottom of the middle lining (4) is mutually attached to the base plate (6).

4. The plastic packaging box for copper foil aluminum foil diaphragm coiled materials according to claim 1, wherein: the opposite ends of the middle lining (4) and the upper pressing plate (5) are respectively provided with a first placing groove (401) and a second placing groove (501), and the first placing groove (401) and the second placing groove (501) are respectively provided with first polyurethane (402) and second polyurethane (502).

5. The plastic packaging box for copper foil aluminum foil diaphragm coiled materials according to claim 1, wherein: connecting slots (403) are symmetrically formed in the side edges of the first placing grooves (401) on the middle lining (4), and connecting plug blocks (503) which are matched with the connecting slots (403) are arranged at the bottom of the upper pressing plate (5) on the side edges of the second placing grooves (501).

6. The plastic packaging box for copper foil aluminum foil diaphragm coiled materials according to claim 1, wherein: the utility model discloses a support, including collet (1), bounding wall (2) are provided with to collet (1) side, and bounding wall (2) top is provided with apron (3), apron (3) and bounding wall (2) joint each other to a plurality of restriction recess (301) have been seted up on apron (3).

7. The plastic packaging box for copper foil aluminum foil diaphragm coiled materials according to claim 1, wherein: the top of the upper pressing plate (5) is provided with a plurality of limiting convex blocks (504) which are matched with the limiting grooves (301), and the limiting convex blocks (504) are inserted into the limiting cover plates (3) in the limiting grooves (301).