CN201484943U

CN201484943U - Conductive turnover box

Info

Publication number: CN201484943U
Application number: CN2009201712309U
Authority: CN
Inventors: 冯云平
Original assignee: DONGGUAN CITY SPEED PACKAGING Co Ltd
Current assignee: DONGGUAN CITY SPEED PACKAGING Co Ltd
Priority date: 2009-08-12
Filing date: 2009-08-12
Publication date: 2010-05-26
Anticipated expiration: 2019-08-12

Abstract

The utility model discloses a conductive turnover box, which comprises a box body, wherein the turnover box is formed by connecting side walls and a bottom part; the box body is internally provided with a plurality of clapboards; the side wall comprises a black EPE foam side wall body, and the outer surface and the inner surface of the side wall body are respectively stuck with an XPE conductive foam outer wall layer and an XPE conductive foam inner wall layer; the bottom part comprises a black EPE foam bottom part body, and the top surface and the bottom surface of the bottom part body are respectively stuck with an XPE conductive foam conduction layer; the clapboard comprises an EPE foam clapboard body, and the two sides of the clapboard body are stuck with an XPE conductive foam conduction layer; and a conductive packing groove used for placing an electronic device is formed between the adjacent clapboards and between the clapboard and the inner wall layer of the box body. In the utility model, with the adoption of the conductive material, on one hand, the conductive turnover box can have the functions of discharging static and resisting scratch for the electronic device; on the other hand, the conductive turnover box can have the function of buffering by the EPE material at the inner layer, so as to ensure the long-time turnover use.

Description

A kind of conduction Turnover Box

Technical field

The utility model relates to a kind of conduction Turnover Box.

Background technology

Most electronicies package and product can have enough to meet the need loading at production process, when loading, turnover need eliminate the static that has on electronics package and the product, promptly need to discharge effectively the static charge of electronics package and product surface accumulation, make it can not produce that electric charge gathers and high potential difference, avoid damaging electronics package.

The utility model content

The purpose of this utility model is to provide a kind of conduction Turnover Box that can effectively eliminate static.

The technical scheme that the utility model adopted is: a kind of conduction Turnover Box, comprise the casing that is formed by connecting by sidewall and bottom, and be provided with a plurality of dividing plates in the casing; Described sidewall comprises the sidewall body of black EPE foam material, is pasted with the outer wall layer and the inner wall layer of XPE conducting foam material on the outside face of sidewall body and the inside face respectively; Described bottom comprises the bottom body of black EPE foam material, is pasted with the conductive layer of XPE conducting foam material on the end face of bottom body and the bottom surface respectively; Described dividing plate comprises the diaphragm body of EPE foam material, and the conductive layer of one deck XPE conducting foam material is all pasted in the both sides of described diaphragm body; Between the described adjacent separator, and the conductive package groove that is formed for placing electronics package between the inner wall layer of the dividing plate in the outside and casing.

Preferably, four bases of described sidewall all have 45 degree bevellings, and four limits of described bottom have and cooperate bonding 45 to spend bevellings with described sidewall.

Preferably, described sidewall is folded and bonding forming by a folded formation; Described folded formation comprises a matrix, and described matrix comprises the matrix body, and the bottom surface of described matrix body and end face are pasted the bottom surface lagging and the end face lagging of one deck XPE conducting foam material respectively; Two sides and a long limit of described matrix all have 45 degree bevellings, described matrix by three longitudinally 90 the degree V-slots it is divided into four matrix parts that only link together by described bottom surface lagging, wherein, 45 degree bevellings on the long limit of described matrix form the base bevelling of each matrix part, and the degree of 45 on described matrix side bevelling has formed the side bevelling of two matrix parts in the outside; Four matrix parts of described folded formation carry out vertical folding by described V-slot, and the side bevelling of two matrix parts by separately that will be positioned at the outside carries out the bonding described sidewall that forms, wherein, bottom surface lagging after bonding is described outer wall layer, is folded with bonding back by the end face lagging after the described V-slot cutting to be described inner wall layer; The base bevelling of four matrix parts folds the 45 degree bevellings of back for four bases of sidewall.

The beneficial effects of the utility model are: conduction Turnover Box described in the utility model, can play bleed off static and anti-scratch effect to electronic devices and components on the one hand by the surface conduction material; Can play the effect of buffering on the other hand by the EPE material of internal layer, guarantee long-term turnover use.

Description of drawings

Fig. 1 is the perspective view of conduction Turnover Box described in the utility model;

Fig. 2 is the structural representation of dividing plate shown in Figure 1.

The specific embodiment

Now in conjunction with the accompanying drawings the specific embodiment of the present utility model is described in detail.

A kind of conduction Turnover Box as shown in Figure 1, comprises the casing that is surrounded by sidewall and bottom and is arranged on the interior a plurality of dividing plates 5 of casing.Described sidewall comprises the sidewall body 1 of black EPE foam material and sticks on the outside face of sidewall body 1 respectively and the outer wall layer 2 and the inner wall layer 3 of the XPE conducting foam material on the inside face.The bottom of casing comprises the bottom body of black EPE foam material and sticks on the end face of bottom body respectively and the conductive layer of the XPE conducting foam material on the bottom surface.

As shown in Figure 2, dividing plate 5 comprises the diaphragm body of being made by the EPE foam 51, and the conductive layer 52 of one deck XPE conducting foam material is all pasted in the both sides of diaphragm body 51.

Four bases of sidewall all have 45 degree bevellings, and four limits of bottom are provided with the 45 degree bevellings that match with the base of sidewall.

Between the adjacent separator 5, and the conductive package groove 6 that forms between the inner wall layer 3 of the dividing plate 5 in the outside and sidewall is used to place electronics package.Since conductive package groove 6 around and the bottom all can conduct electricity, so the static on the electronics package can by the conduction Turnover Box carry out bleed off, and can prevent effectively electronics package in circular flow by scratch.Because the internal layer of casing and dividing plate is made by black EPE foam, therefore have higher elasticity and antiknock quality, therefore can play buffer action preferably.

Conduction Turnover Box described in the utility model can have enough to meet the need use chronically.

Described sidewall is to fold and bonding forming by a folded formation.

In the actual fabrication process, can utilize the matrix body of a black EPE foam material, the bottom surface lagging of pasting one deck XPE conducting foam material respectively at the bottom surface and the end face of matrix body and end face lagging and form a matrix.All carry out after the bevelling processing of 45 degree on two sides and a long limit of described matrix, on matrix, have three V-slots 11 of 90 degree longitudinally, all be miter angle between the two side of V-slot 11 and the bottom surface lagging, V-slot 11 is divided into matrix four matrix parts that only link together by described bottom surface lagging, simultaneously, 45 degree bevellings on the long limit of matrix have formed the base bevelling of each matrix part, on the matrix side 45 degree bevelling has formed the side bevelling of two matrix parts in the outside, and then has formed described folded formation.After four matrix parts of described folded formation are carried out vertical folding by V-slot 11, the side bevelling of two matrix parts by separately that will be positioned at the outside carries out promptly having formed described sidewall after bonding, wherein, bottom surface lagging after bonding has promptly formed described outer wall layer 2, by the end face lagging after V-slot 11 cutting fold with bonding after formed described inner wall layer 3; After folding, the base bevelling of four matrix parts promptly formed the 45 degree bevellings on four bases of sidewall.

Being the utility model preferred embodiment only in sum, is not to be used for limiting practical range of the present utility model.Be that all equivalences of doing according to the content of the utility model claim change and modification, all should belong to technology category of the present utility model.

Claims

1. a conduction Turnover Box is characterized in that: comprise the casing that is formed by connecting by sidewall and bottom, be provided with a plurality of dividing plates in the casing; Described sidewall comprises the sidewall body of black EPE foam material, is pasted with the outer wall layer and the inner wall layer of XPE conducting foam material on the outside face of sidewall body and the inside face respectively; Described bottom comprises the bottom body of black EPE foam material, is pasted with the conductive layer of XPE conducting foam material on the end face of bottom body and the bottom surface respectively; Described dividing plate comprises the diaphragm body of EPE foam material, and the conductive layer of one deck XPE conducting foam material is all pasted in the both sides of described diaphragm body; Between the described adjacent separator, and the conductive package groove that is formed for placing electronics package between the inner wall layer of the dividing plate in the outside and casing.

2. a kind of conduction Turnover Box according to claim 1 is characterized in that: four bases of described sidewall all have 45 degree bevellings, and four limits of described bottom have and cooperate bonding 45 to spend bevellings with described sidewall.

3. a kind of conduction Turnover Box according to claim 2 is characterized in that: described sidewall is folded and bonding forming by a folded formation; Described folded formation comprises a matrix, and described matrix comprises the matrix body, and the bottom surface of described matrix body and end face are pasted the bottom surface lagging and the end face lagging of one deck XPE conducting foam material respectively; Two sides and a long limit of described matrix all have 45 degree bevellings, described matrix by three longitudinally 90 the degree V-slots it is divided into four matrix parts that only link together by described bottom surface lagging, wherein, 45 degree bevellings on the long limit of described matrix form the base bevelling of each matrix part, and the degree of 45 on described matrix side bevelling has formed the side bevelling of two matrix parts in the outside; Four matrix parts of described folded formation carry out vertical folding by described V-slot, and the side bevelling of two matrix parts by separately that will be positioned at the outside carries out the bonding described sidewall that forms, wherein, bottom surface lagging after bonding is described outer wall layer, is folded with bonding back by the end face lagging after the described V-slot cutting to be described inner wall layer; The base bevelling of four matrix parts folds the 45 degree bevellings of back for four bases of sidewall.