CN218908340U - Notebook computer packing box - Google Patents

Abstract

The utility model discloses a notebook computer packaging box which comprises an outer packaging box and an inner packaging body, wherein the inner packaging body comprises a computer accommodating body and an overhead supporting body, a containing cavity is formed in the middle of the overhead supporting body, the computer accommodating body is arranged above the overhead supporting body, the middle of the computer accommodating body is inwards concave downwards to form a computer accommodating cavity, the computer accommodating cavity is embedded in the accommodating cavity, and a buffer layer for buffering vibration impact of the computer accommodating cavity is arranged at the bottom of the computer accommodating cavity. The overhead supporting body and the buffer layer provide support for the computer placement body and enough shock absorption space allowance for the computer placement body, so that the shock absorption performance of the notebook computer packaging box is improved.

Description

Notebook computer packing box

Technical Field

The utility model relates to the technical field of computer packaging, in particular to a notebook computer packaging box.

Background

The computer packaging box is indispensable in production, circulation and sales of computer equipment, the existing computer equipment generally needs a plurality of accessories to realize more functional requirements, but the existing computer packaging box cannot package the accessories together and needs a plurality of packaging boxes to package the accessories respectively, so that the packaging cost is increased and the workload of staff is increased; and the shock attenuation effect of current computer packing carton is relatively poor, appears the computer equipment to bump and damage and cause equipment unable scheduling problem.

The technical scheme adopted by the patent application with the application number of CN201120334000.7 is to provide a shock absorption packing box for computer equipment, the shock absorption packing box comprises a foam gasket, a shock absorption partition plate, a lining and a groove, wherein the foam gasket is arranged at the inner bottom of the packing box, the shock absorption partition plate is arranged at the upper part of the foam gasket, the foam gasket is arranged at the upper part of the shock absorption partition plate, the lining is arranged at the upper part of the foam gasket, and the groove is arranged on the lining; the upper portion of the liner is provided as a foam pad.

In the scheme, the computer and the computer accessories are arranged in a layered and spaced mode through the multi-layer foam gaskets and the inner lining, but foam filling is adopted between the computer body and the shell and between the computer and the computer accessories to absorb shock, the shock absorption effect is poor, when the computer packing box falls or collides strongly, the shock absorption space allowance of the foam is insufficient to offset the vibration allowance generated by the strong collision, and therefore the problem that the computer is damaged or broken easily is caused.

Disclosure of Invention

In order to overcome the problems in the prior art, the utility model provides a notebook computer packaging box which can provide enough shock absorption space allowance for a notebook computer and improve the shock absorption performance of the notebook computer packaging box.

In order to solve the technical problems, the utility model adopts the following technical scheme: the utility model provides a notebook computer packing carton, it includes external packing box and inner packing body, the inner packing body includes computer arrangement body and aerial support body, the middle part of aerial support body is equipped with a holding cavity, computer arrangement body sets up in aerial support body top, the middle part of computer arrangement body is the indent one-tenth computer accommodation cavity downwards, computer accommodation cavity in the accommodation cavity, just the bottom of computer accommodation cavity is equipped with the buffer layer that is used for slowing down computer accommodation cavity vibration impact.

Preferably, the computer placement body comprises a computer accommodating cavity and a limiting hasp eave connected with the cavity of the computer accommodating cavity, and the limiting hasp eave is buckled on the overhead support body.

Preferably, the overhead supporting body comprises a rectangular outer wrapping frame and a supporting seat arranged on the inner wall of the rectangular outer wrapping frame, and the upper end of the rectangular outer wrapping frame is higher than the supporting seat to form a hanging eave.

Preferably, the limit hasp eave is a hook part formed by outwards bending from the cavity of the computer accommodating cavity, and the hook part is hung on the hanging eave.

Preferably, the computer accommodating cavity comprises a computer body accommodating subchamber and a fitting accommodating subchamber, the computer body accommodating subchamber is arranged above the fitting accommodating subchamber, and a damping interlayer component is arranged between the computer body accommodating subchamber and the fitting accommodating subchamber.

Preferably, the computer body accommodating subchamber is communicated with the accessory accommodating subchamber, and a shock absorption ladder is arranged at the joint of the computer body accommodating subchamber and the accessory accommodating subchamber.

Preferably, the shape area surrounded by the shock absorption steps is consistent with the projection area of the shock absorption interlayer component.

Preferably, the buffer layer is provided with a buffer member.

Preferably, the concave depth of the computer accommodating cavity is smaller than the height of the overhead support body, and the buffer component is arranged between the bottom of the computer accommodating cavity and the bottom of the outer packing box.

Preferably, the width of the accessory accommodating subchamber gradually decreases from the chamber orifice to the bottom of the chamber.

The beneficial effects of the utility model are as follows:

1. according to the utility model, the computer accommodating cavity is embedded in the accommodating cavity, the buffer layer for relieving the vibration impact of the computer accommodating cavity is arranged at the bottom of the computer accommodating cavity, and the overhead support body and the buffer layer provide a sufficient shock absorption space allowance for the computer accommodating body while providing support for the computer accommodating body, so that the shock absorption performance of the notebook computer packaging box is improved.

2. According to the utility model, the buffer component is arranged in the buffer layer, so that a certain supporting force can be provided for the computer accommodating cavity, and a space buffer and shock absorption allowance in a fault tolerance range can be provided for the computer accommodating cavity, thereby counteracting the vibration impact of the computer accommodating cavity and avoiding damage to the computer and computer accessories arranged in the computer accommodating cavity due to vibration.

3. According to the utility model, the shock absorption ladder is arranged at the joint of the computer body accommodating subchamber and the accessory accommodating subchamber, and the vibration between the computer body accommodating subchamber and the accessory accommodating subchamber is counteracted through the bending structure of the shock absorption ladder, so that the vibration impact received by the computer body and the computer accessory arranged in the computer arranging body is further reduced, and the shock absorption property of the notebook computer packaging box is improved.

Drawings

Fig. 1 is a schematic perspective view of a notebook computer packaging box according to an embodiment of the utility model.

Fig. 2 is an exploded view of a notebook computer packing box according to an embodiment of the present utility model.

Fig. 3 is a schematic perspective view of a computer placement body in a notebook computer packaging box according to an embodiment of the utility model.

Fig. 4 is a cross-sectional view of a notebook computer packing box according to an embodiment of the present utility model.

The components in the drawings are marked as follows:

1. an outer packing box; 2. an inner package; 21. a computer installation body; 22. an overhead support; 211. a computer accommodating cavity; 211a, accommodating the subchamber of the computer body; 211b, fitting accommodating subchambers; 211c, shock absorption steps; 212. limiting hasp eaves; 221. a rectangular outer cover frame; 222. a support base; 221a, hanging and lapping eaves; 3. a buffer member; 4. and a shock absorbing barrier member.

Detailed Description

The preferred embodiments of the present utility model will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present utility model can be more easily understood by those skilled in the art, thereby making clear and defining the scope of the present utility model.

The embodiment of the utility model provides a notebook computer packaging box, as shown in fig. 1 to 4, which comprises an outer packaging box 1 and an inner packaging body 2, wherein the inner packaging body 2 comprises a computer placement body 21 and an overhead supporting body 22, the computer placement body 21 is used for accommodating and limiting and fixing a computer body and computer accessories, and the overhead supporting body 22 is used for providing upward support for the computer placement body 21; the overhead supporting body 22 is a rectangular supporting frame, a containing cavity is arranged in the middle of the overhead supporting body 22, the computer placing body 21 is arranged above the overhead supporting body 22, the middle of the computer placing body 21 is concaved inwards to form a computer containing cavity 211, the computer containing cavity 211 is embedded in the containing cavity, and a buffer layer for buffering vibration impact of the computer containing cavity 211 is arranged at the bottom of the computer containing cavity 211. The overhead supporting body 22 and the buffer layer provide a sufficient shock absorption space allowance for the computer placement body 21 while providing a support for the computer placement body 21, so that the shock absorption performance of the notebook computer packaging box is improved.

The buffer layer is internally provided with the buffer component 3, the buffer component 3 is preferably a sponge body, the sponge body has certain supporting performance and certain elastic deformation performance, and by arranging the sponge body on the buffer layer, not only can a certain supporting force be provided for the computer accommodating cavity 211, but also a space buffer shock absorption allowance in a fault tolerance range can be provided for the computer accommodating cavity 211, so that vibration impact received by the computer accommodating cavity 211 is counteracted, and damage caused by vibration of a computer and computer accessories arranged in the computer accommodating cavity 211 is avoided. Specifically, as shown in the figure, the concave depth of the computer accommodating cavity 211 is slightly smaller than the height of the overhead supporting body 22, the height of the overhead supporting body 22 is consistent with the height of the inner wall of the outer shell, and the buffer component 3 is arranged between the bottom of the computer accommodating cavity 211 and the bottom of the outer packing box 1.

As shown in fig. 4, the overhead supporting body 22 includes a rectangular outer casing 221 and two supporting seats 222, the two supporting seats 222 are symmetrically disposed inside the rectangular outer casing 221, the bottom of the two supporting seats is attached to the bottom surface of the inner side of the outer casing 1, the outer side wall of the rectangular outer casing 221 is attached to the inner side wall of the outer casing 1, and the upper end of the rectangular outer casing 221 is higher than the supporting seats 222, so as to form a hanging eave 221a.

The computer installation body 21 comprises a computer accommodating cavity 211 and a limit hasp edge 212 connected with the cavity opening of the computer accommodating cavity 211, wherein the maximum width of the limit hasp edge 212 is larger than that of the overhead supporting body 22, so that the limit hasp edge 212 is buckled on the overhead supporting body 22, and the computer installation body 21 is erected on the overhead supporting body 22. As shown in fig. 4, the limiting snap eaves 212 are hooks formed by bending outwards from the cavity opening of the computer accommodating cavity 211, and the hooks are hung on the hanging and lapping eaves 221a, so that the structural coordination degree between the computer placing body 21 and the overhead supporting body 22 is improved, and the computer placing body 21 is firmly hung and buckled on the overhead supporting body 22.

The computer accommodating cavity 211 is used for accommodating a computer body and computer accessories; as shown in fig. 2 and 3, the computer accommodating cavity 211 includes a computer body accommodating sub-cavity 211a and a fitting accommodating sub-cavity 211b, wherein the computer body accommodating sub-cavity 211a is disposed above the fitting accommodating sub-cavity 211b and is communicated with the fitting accommodating sub-cavity 211 b; the volume shape of the concave cavity body in the computer body accommodating subchamber 211a is consistent with that of the notebook computer, and as the volume shape of the computer accessory is smaller than that of the notebook computer, the bottom of the computer body accommodating subchamber 211a horizontally and inwards contracts to form an accessory accommodating subchamber 211b with the volume shape consistent with that of the computer accessory. The computer body accommodating subchamber 211a and the accessory accommodating subchamber 211b cooperate to form a step-shaped cavity, and the supporting seat 222 of the overhead supporting body 22 is disposed below the step of the step-shaped cavity.

As shown in fig. 4, the width of the accessory accommodating subchamber 211b gradually decreases from the orifice to the bottom of the chamber, so that the chamber is a wedge-shaped chamber; however, the width of the cavity opening of the accessory accommodating subchamber 211b has a smaller difference from the width of the cavity bottom, specifically, the width of the cavity opening of the accessory accommodating subchamber 211b is consistent with the width of the computer accessory, and the width of the bottom of the cavity is slightly smaller than the width of the computer accessory; thus, when the computer accessory is placed in the accessory accommodating subchamber 211b, the computer accessory falls to the bottom of the cavity along the side wall of the cavity and is clamped in the cavity by the side wall of the cavity, so that the computer accessory is limited and clamped.

In order to avoid the contact collision between the computer body and the computer accessories in the transportation process, a shock absorption interlayer part 4 is arranged between the computer body accommodating subchamber 211a and the accessory accommodating subchamber 211b, and the shock absorption interlayer part 4 is a paperboard or foam board or sponge board.

In order to further improve the shock absorption performance of the notebook computer packaging box, as shown in fig. 3, a shock absorption step 211c is arranged at the joint of the computer body accommodating subcavity 211a and the accessory accommodating subcavity 211b, and the bending structure of the shock absorption step 211c can offset the vibration between the computer body accommodating subcavity 211a and the accessory accommodating subcavity 211b, so that the vibration impact received by the computer body and the computer accessory arranged in the computer arranging body 21 is further reduced.

Preferably, the shape area surrounded by the shock absorbing step 211c is consistent with the projection area of the shock absorbing interlayer part 4, so that the shock absorbing interlayer part 4 can be embedded in the shock absorbing step 211c, and displacement of the shock absorbing interlayer part 4 in the transportation process is avoided through limiting of the shock absorbing step 211 c.

The foregoing is only illustrative of the present utility model and is not to be construed as limiting the scope of the utility model, and all equivalent structures or equivalent flow modifications which may be made by the teachings of the present utility model and the accompanying drawings or which may be directly or indirectly employed in other related art are within the scope of the utility model.

Claims (10)

1. The utility model provides a notebook computer packing carton, its characterized in that includes external packing box and inner package body, the inner package body includes computer arrangement body and aerial support body, aerial support body's middle part is equipped with a holding cavity, computer arrangement body sets up in aerial support body top, computer arrangement body's middle part indent forms a computer holding cavity downwards, computer holding cavity in the holding cavity, just computer holding cavity's bottom is equipped with the buffer layer that is used for slowing down computer holding cavity vibration impact.

2. The notebook computer packaging box according to claim 1, wherein the computer placement body comprises a computer accommodating cavity and a limiting snap eave connected with a cavity of the computer accommodating cavity, and the limiting snap eave is snapped on the overhead support body.

3. The notebook computer packaging box according to claim 2, wherein the overhead supporting body comprises a rectangular outer wrapping frame and a supporting seat arranged on the inner wall of the rectangular outer wrapping frame, and the upper end of the rectangular outer wrapping frame is higher than the supporting seat to form a hanging eave.

4. The notebook computer packaging box according to claim 3, wherein the limit hasp eave is a hook part formed by bending outwards from a cavity of the computer accommodating cavity, and the hook part is hung on the hanging eave.

5. The packaging box of a notebook computer according to claim 1, wherein the computer accommodating cavity comprises a computer body accommodating subchamber and an accessory accommodating subchamber, the computer body accommodating subchamber is arranged above the accessory accommodating subchamber, and a shock absorption interlayer component is arranged between the computer body accommodating subchamber and the accessory accommodating subchamber.

6. The packaging box of the notebook computer according to claim 5, wherein the computer body accommodating subchamber is communicated with the accessory accommodating subchamber, and a shock absorption step is arranged at the joint of the computer body accommodating subchamber and the accessory accommodating subchamber.

7. The notebook computer packing box according to claim 6, wherein the shape area surrounded by the shock absorbing step is identical to the projection area of the shock absorbing barrier member.

8. The notebook computer packing box according to claim 1, wherein the buffer layer is provided with a buffer member.

9. The notebook computer packaging box according to claim 8, wherein the concave depth of the computer accommodating cavity is smaller than the height of the overhead supporting body, and the buffer component is arranged between the bottom of the computer accommodating cavity and the bottom of the outer packaging box.

10. The notebook computer packaging box according to claim 5, wherein the width of the accessory accommodating subchamber gradually decreases from the cavity opening to the bottom of the cavity.

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