CN216070903U - Inner support suitable for full-automatic box folding process - Google Patents

Abstract

The utility model discloses an inner support suitable for a full-automatic box folding process, which comprises a first base plate, wherein a first buffer cavity and a second buffer cavity are arranged on the first base plate in a relatively spaced mode, an accommodating cavity is defined by the first buffer cavity, the first base plate and the second buffer cavity, the first base plate is connected with the interval buffer cavities through a connecting plate, the interval buffer cavities enter the accommodating cavity after the connecting plate is folded, a first bayonet and a second bayonet which are arranged oppositely are arranged on one side of the accommodating cavity on the first buffer cavity and the second buffer cavity, and two ends of the interval buffer cavities are respectively inserted into the first bayonet and the second bayonet to divide the accommodating cavity into a first cavity and a second cavity. The utility model has simple structure, good damping and buffering effect, simple and square folding structure and convenient automatic production.

Description

Inner support suitable for full-automatic box folding process

[ technical field ] A method for producing a semiconductor device

The utility model relates to an inner support suitable for a full-automatic box folding process.

[ background of the utility model ]

At present, the mobile phone packaging boxes on the market mostly adopt a folding inner support structure to support and package the mobile phones and accessories thereof, but the inner support structure produced in large batch at present is complex, manual folding operation is needed, the production efficiency is low, and the shockproof buffer effect is general.

Therefore, the present invention has been made in view of the above disadvantages.

[ Utility model ] content

The utility model aims to overcome the defects of the prior art and provides the inner support which has a simple structure, a good damping and buffering effect, a simple and square folding structure and convenience in automatic production and is suitable for the full-automatic box folding process.

The utility model is realized by the following technical scheme:

the utility model provides an inner support suitable for full-automatic box technology that rolls over, its characterized in that includes first bottom plate 1, first bottom plate 1 on be provided with first buffer cavity 2 and second buffer cavity 3 relatively at a distance from, first buffer cavity 2, first bottom plate 1 and second buffer cavity 3 enclose and become and have holding chamber 4, first bottom plate 1 on be connected with interval buffer cavity 5 through connecting plate 6, connecting plate 6 turn over a back interval buffer cavity 5 and enter into holding chamber 4 in, first buffer cavity 2 and second buffer cavity 3 on one side in holding chamber 4 be equipped with relative first bayonet socket 20 and the second bayonet socket 30 that sets up, interval buffer cavity 5 both ends insert respectively in first bayonet socket 20 and the second bayonet socket 30 and separate holding chamber 4 for first chamber 41 and second chamber 42.

The inner support suitable for the full-automatic box folding process is characterized in that the spacing buffer cavity 5 is defined by a second bottom plate 51, a first side plate 52, a first top plate 53 and a second side plate 54, one end of the second side plate 54 is connected with the connecting plate 6, the connecting plate 6 is folded by a crease line and then is bonded to the first bottom plate 1, and the second bottom plate 51 is bonded to the first bottom plate 1.

The inner support suitable for the full-automatic box folding process is characterized in that the second bottom plate 51 is provided with a fixing plate 7 which is bonded between the connecting plate 6 and the first bottom plate 1.

The inner support suitable for the full-automatic box folding process according to claim 2, is characterized in that: and guide plates 8 for guiding and inserting the interval buffer cavity 5 into the first bayonet 20 and the second bayonet 30 are respectively arranged at two ends of the first top plate 53.

The inner support suitable for the full-automatic box folding process is characterized in that the first buffer cavity 2 is enclosed by a third bottom plate 21, a third side plate 22, a second top plate 23 and a fourth side plate 24, one end of the fourth side plate 24 is connected with the first bottom plate 1, one end of the third bottom plate 21 is bonded to the back surface of the first bottom plate 1, the first bayonet 20 is arranged on the fourth side plate 24 and the second top plate 23, the second buffer cavity 3 is enclosed by a fourth bottom plate 31, a fifth side plate 32, a third top plate 33 and a sixth side plate 34, one end of the sixth side plate 34 is connected with the first bottom plate 1, one end of the fourth bottom plate 31 is bonded to the back surface of the first bottom plate 1, and the second bayonet 30 is arranged on the sixth side plate 34 and the third top plate 33.

The inner support suitable for the full-automatic box folding process is characterized in that the third top plate 33 is provided with a placing opening 9 for placing accessories into the second buffer cavity 3, and the sixth side plate 34 is provided with an anti-falling baffle 10 capable of turning over to block the accessories.

The inner support suitable for the full-automatic box folding process is characterized in that the end part, close to the placing opening 9, of the third top plate 33 is provided with a reinforcing plate 11 for reinforcing the structural strength.

The inner support suitable for the full-automatic box folding process is characterized in that the second top plate 23 and the third top plate 33 are respectively provided with a plurality of reinforcing ribs 12 for reinforcing the stress of paper.

The inner support suitable for the full-automatic box folding process is characterized in that a first anti-cracking elongated slot 231 used for dispersing tearing stress is arranged at the corner of the first bayonet 20, which is located at the second top plate 23 and close to one side of the reinforcing rib 12, and a second anti-cracking elongated slot 331 used for dispersing tearing stress is arranged at the corner of the second bayonet 30, which is located at the third top plate 33 and close to one side of the reinforcing rib 12.

The inner support suitable for the full-automatic box folding process is characterized in that a first anti-cracking hole 13 used for dispersing tearing stress is formed in the corner where the first bayonet 20 is connected with the first base plate 1, and a second anti-cracking hole 14 used for dispersing tearing stress is formed in the corner where the second bayonet 30 is connected with the first base plate 1.

Compared with the prior art, the utility model has the following advantages:

1. the interval buffer cavity body for dividing the accommodating cavity into the first cavity and the second cavity is clamped in the accommodating cavity, so that the contents of the first cavity and the second cavity can be protected by the first buffer cavity body, the second buffer cavity body and the interval buffer cavity body in a damping and buffering mode.

2. According to the utility model, the guide plates are arranged at the two ends of the first top plate, so that the guide function is realized when the interval buffer cavity is inserted into the first bayonet and the second bayonet, the interval buffer cavity is conveniently inserted into the first bayonet and the second bayonet, and the assembly clamping position is avoided.

3. According to the utility model, the end part of the third top plate close to the placing opening is provided with the reinforcing plate, so that the influence of the opening on the structure is reduced, and the structural strength is enhanced.

4. The second top plate and the third top plate are respectively provided with the plurality of reinforcing ribs for reinforcing the stress of paper and reinforcing the supporting force of the inner support so as to better protect the contents.

5. According to the utility model, the first anti-cracking hole, the second anti-cracking hole, the first anti-cracking elongated slot and the second anti-cracking elongated slot are arranged, so that the tearing stress is dispersed, and the product is prevented from cracking when falling.

[ description of the drawings ]

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

FIG. 2 is a plan expanded view of the present invention;

FIG. 3 is one of the fold-over illustrations of the present invention;

FIG. 4 is a second schematic view of the present invention;

fig. 5 is a third illustration of the folding of the present invention.

[ detailed description ] embodiments

The utility model is further described below with reference to the accompanying drawings:

as shown in fig. 1 to 5, an inner support suitable for a full-automatic box folding process includes a first base plate 1, a first buffer cavity 2 and a second buffer cavity 3 are arranged on the first base plate 1 and are relatively spaced, the first buffer cavity 2, the first base plate 1 and the second buffer cavity 3 enclose a containing cavity 4, the first base plate 1 is connected with a spaced buffer cavity 5 through a connecting plate 6, the spaced buffer cavity 5 enters the containing cavity 4 after the connecting plate 6 is folded, a first bayonet 20 and a second bayonet 30 which are relatively arranged are arranged on one side of the first buffer cavity 2 and the second buffer cavity 3 in the containing cavity 4, and two ends of the spaced buffer cavity 5 are respectively inserted into the first bayonet 20 and the second bayonet 30 to divide the containing cavity 4 into a first cavity 41 and a second cavity 42. According to the utility model, the interval buffer cavity 5 which divides the accommodating cavity 4 into the first cavity 41 and the second cavity 42 is clamped in the accommodating cavity 4, so that the contents of the first cavity 41 and the second cavity 42 can be protected by the damping and buffering of the first buffer cavity 2, the second buffer cavity 3 and the interval buffer cavity 5, the structure is simple, not only can the internal products be well protected, but also the materials of the internal support body can be saved during the manufacturing process, the interval buffer cavity 5 and the first bottom plate 1 are connected into a whole through the connecting plate 6, so that the internal support is integrally formed, the forming structure is simple, the operation is convenient, the interval buffer cavity 5 and the internal support body do not need to be matched, the manufacturing process is also simplified, the requirements of an upper packaging machine can be met, the automation degree is improved, and the cost is effectively reduced.

In this embodiment, the spacing buffer cavity 5 is enclosed by the second bottom plate 51, the first side plate 52, the first top plate 53 and the second side plate 54, one end of the second side plate 54 is connected to the connecting plate 6, the connecting plate 6 is folded by the crease lines and then bonded to the first bottom plate 1, and the second bottom plate 51 is bonded to the first bottom plate 1.

Specifically, the second bottom plate 51 is provided with a fixing plate 7 bonded between the connecting plate 6 and the first bottom plate 1, so that the second bottom plate 51 and the second side plate 54 are connected end to end, and the box body is formed by using the equipment conveniently.

Specifically, the guide plates 8 for guiding the interval buffer cavity 5 into the first bayonet 20 and the second bayonet 30 are respectively arranged at two ends of the first top plate 53, the guide plates 8 play a role in guiding the interval buffer cavity 5 into the first bayonet 20 and the second bayonet 30, and the interval buffer cavity 5 can be conveniently inserted into the first bayonet 20 and the second bayonet 30 to avoid assembly clamping.

As shown in fig. 2, the first buffer cavity 2 is enclosed by a third bottom plate 21, a third side plate 22, a second top plate 23 and a fourth side plate 24, one end of the fourth side plate 24 is connected with the first bottom plate 1, one end of the third bottom plate 21 is adhered to the back of the first bottom plate 1, the first bayonet 20 is arranged on the fourth side plate 24 and the second top plate 23, the second buffer cavity 3 is enclosed by a fourth bottom plate 31, a fifth side plate 32, a third top plate 33 and a sixth side plate 34, one end of the sixth side plate 34 is connected with the first bottom plate 1, one end of the fourth bottom plate 31 is adhered to the back of the first bottom plate 1, and the second bayonet 30 is arranged on the sixth side plate 34 and the third top plate 33.

Furthermore, a placing opening 9 for placing accessories into the second buffer cavity 3 is formed in the third top plate 33, and an anti-falling baffle 10 capable of being turned over to block the accessories is arranged on the sixth side plate 34.

Furthermore, the end part of the third top plate 33 close to the placing opening 9 is provided with a reinforcing plate 11 for reinforcing the structural strength, so that the influence of the opening of the placing opening 9 on the structure is reduced, and the structural strength is enhanced.

Specifically, the second top plate 23 and the third top plate 33 are respectively provided with a plurality of reinforcing ribs 12 for reinforcing the paper to protect the contents better.

Further, a first anti-cracking elongated slot 231 for dispersing the tearing stress is arranged at a corner of the first bayonet 20, which is located on the second top plate 23 and close to one side of the reinforcing rib 12, and a second anti-cracking elongated slot 331 for dispersing the tearing stress is arranged at a corner of the second bayonet 30, which is located on the third top plate 33 and close to one side of the reinforcing rib 12.

In this embodiment, a first anti-crack hole 13 for dispersing the tearing stress is disposed at a corner where the first bayonet 20 is connected to the first base plate 1, and a second anti-crack hole 14 for dispersing the tearing stress is disposed at a corner where the second bayonet 30 is connected to the first base plate 1. According to the utility model, the first anti-cracking hole 13, the second anti-cracking hole 14, the first anti-cracking elongated slot 231 and the second anti-cracking elongated slot 331 are arranged, so that the tearing stress is dispersed, and the product is prevented from cracking when falling.

The forming principle is as follows:

in fig. 2, the hatched portion is covered with adhesive, the back of the second bottom plate 51 is also covered with adhesive, when the spacing buffer cavity 5 needs to be formed, the first side plate 52 is firstly turned over to make the fixing plate 7 adhere to the connecting plate 6, so as to form a box body, then as shown in fig. 3, the connecting plate 6 is turned over to adhere to the front of the first bottom plate 1, the back of the second bottom plate 51 is also adhered to the front of the first bottom plate 1, then the third side plate 22 and the fifth side plate 32 are turned over to the back, the free ends of the third bottom plate 21 and the fourth bottom plate 31 are adhered to the back of the first bottom plate 1 through adhesive, at this time, as shown in fig. 4, the spacing buffer cavity 5 is turned up to form a box, as shown in fig. 5, then the fourth side plate 24 and the sixth side plate 34 are turned over to be perpendicular to the first bottom plate 1, so that the first buffer cavity 2 and the second buffer cavity 3 stand up, and the two ends of the spacing buffer cavity 5 are respectively inserted into the first bayonet 20 and the second bayonet 30, finally, the reinforcing plate 11 is turned downwards to be perpendicular to the first bottom plate 1 to form an inner support as shown in figure 1, the structure is simple and square, and the inner support can be formed by automatic box folding equipment.

Claims (10)

1. The utility model provides an interior support suitable for full-automatic box technology of rolling over which characterized in that: comprises a first bottom plate (1), a first buffer cavity (2) and a second buffer cavity (3) are arranged on the first bottom plate (1) in a relatively spaced manner, the first buffer cavity (2), the first bottom plate (1) and the second buffer cavity (3) enclose to form an accommodating cavity (4), the first bottom plate (1) is connected with an interval buffer cavity (5) through a connecting plate (6), the connecting plate (6) is turned over and then enters the accommodating cavity (4) at intervals of the buffer cavity (5), a first bayonet (20) and a second bayonet (30) which are oppositely arranged are arranged on one side of the first buffer cavity (2) and the second buffer cavity (3) in the accommodating cavity (4), the two ends of the interval buffer cavity body (5) are respectively inserted into the first bayonet (20) and the second bayonet (30) to divide the accommodating cavity (4) into a first cavity (41) and a second cavity (42).

2. The inner support suitable for the full-automatic box folding process according to claim 1, is characterized in that: the interval buffer cavity (5) is enclosed by a second bottom plate (51), a first side plate (52), a first top plate (53) and a second side plate (54), one end of the second side plate (54) is connected with the connecting plate (6), the connecting plate (6) is folded through crease lines and then is bonded on the first bottom plate (1), and the second bottom plate (51) is bonded on the first bottom plate (1).

3. The inner support suitable for the full-automatic box folding process according to claim 2, is characterized in that: the second bottom plate (51) is provided with a fixing plate (7) which is bonded between the connecting plate (6) and the first bottom plate (1).

4. The inner support suitable for the full-automatic box folding process according to claim 2, is characterized in that: and guide plates (8) for guiding and inserting the interval buffer cavity (5) into the first bayonet (20) and the second bayonet (30) are respectively arranged at two ends of the first top plate (53).

5. The inner support suitable for the full-automatic box folding process according to claim 1, is characterized in that: the first buffer cavity (2) is enclosed by a third bottom plate (21), a third side plate (22), a second top plate (23) and a fourth side plate (24), one end of the fourth side plate (24) is connected with the first bottom plate (1), one end of the third bottom plate (21) is adhered to the back surface of the first bottom plate (1), the first bayonet (20) is arranged on the fourth side plate (24) and the second top plate (23), the second buffer cavity (3) is enclosed by a fourth bottom plate (31), a fifth side plate (32), a third top plate (33) and a sixth side plate (34), one end of the sixth side plate (34) is connected with the first bottom plate (1), one end of the fourth bottom plate (31) is adhered to the back surface of the first bottom plate (1), the second bayonet (30) is arranged on the sixth side plate (34) and the third top plate (33).

6. The inner support suitable for the full-automatic box folding process according to claim 5, is characterized in that: third roof (33) on be equipped with supply the accessory to put into placing mouth (9) in second buffer chamber body (3), sixth curb plate (34) on be equipped with and to turn over anticreep baffle (10) that block the accessory.

7. The inner support suitable for the full-automatic box folding process according to claim 6, is characterized in that: and a reinforcing plate (11) for reinforcing the structural strength is arranged on the end part of the third top plate (33) close to the placing opening (9).

8. The inner support suitable for the full-automatic box folding process according to claim 5, is characterized in that: and a plurality of reinforcing ribs (12) for reinforcing the stress of the paper are respectively arranged on the second top plate (23) and the third top plate (33).

9. The inner support suitable for the full-automatic box folding process according to claim 8, is characterized in that: the first bayonet (20) is located at the corner of the second top plate (23) close to one side of the reinforcing rib (12) and is provided with a first anti-cracking elongated slot (231) for dispersing tearing stress, and the second bayonet (30) is located at the corner of the third top plate (33) close to one side of the reinforcing rib (12) and is provided with a second anti-cracking elongated slot (331) for dispersing tearing stress.

10. The inner support suitable for the full-automatic box folding process according to claim 1, is characterized in that: the corner that first bayonet socket (20) and first bottom plate (1) link to each other is equipped with first anti-crack hole (13) that are used for dispersing tearing stress, the corner that second bayonet socket (30) and first bottom plate (1) link to each other be equipped with second anti-crack hole (14) that are used for dispersing tearing stress.

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