CN203528013U - Partition - Google Patents

Abstract

The utility model relates to a baffle, include: the upper surface and the lower surface of the substrate are both attached with the film, and the surface of the film is printed with ink lines with conductive property; the partition board is used between the glass panel and the glass panel, so that when the glass panel and the glass panel are stacked and arranged, the generated static electricity can be carried away by the ink lines with conductive property on the partition board; in addition, the substrate of the partition board is a foamed high molecular polymer, which has the characteristics of flexibility, pressure resistance and shock energy absorption, so that the glass panel is not easy to break due to mutual extrusion or shock collision of the glass panel and the glass panel in the stacking process.

Description

Partition

technical field

The utility model provides a separator, which is used between glass panels, so that when the glass panels and glass panels are stacked, the static electricity generated can be taken away by the conductive ink line on the separator. , can achieve antistatic effect; because the substrate of the partition itself is a foamed polymer, it has the characteristics of softness, pressure resistance and vibration energy absorption, so that the glass panel is not easy to be damaged by the glass during the stacking process. The panel and the glass panel squeeze each other or vibrate and collide causing the glass panel to break.

Background technique

In the past, when the glass panels were finished, they had to be stacked piece by piece in a dedicated packaging box for transportation; however, static electricity was sometimes generated during the stacking process, which further affected the quality and yield of the finished glass panels;

Furthermore, due to the increased weight of stacked glass panels, the lower glass panels are easily damaged due to pressure, and even more serious damage is caused by collisions during transportation. Such situations often occur;

Then, a separator of a foamed high molecular polymer with an antistatic agent was developed, but the use effect was not good. The oil stain of the antistatic agent was easily transferred to the glass panel, thereby polluting the cleanliness of the glass panel itself, and The antistatic rate is too slow, which does not meet the expected effect;

With the current development of optoelectronic technology, related products have higher and higher requirements for the rate of static electricity dissipation. The original antistatic products can no longer meet the needs of product protection, so this design is used to increase the rate of static electricity dissipation;

Therefore, in view of the above-mentioned situation, the designer has been engaged in relevant industry experience for many years, actively researches and improves, and then has the development of the present utility model.

Contents of the invention

The main purpose of this utility model is to provide a separator, including: a substrate and a film, the film is attached to the upper and lower sides of the substrate by thermal paste or glue, and the surface of the film is The ink lines with conductive properties are printed here.

Another main purpose of the present utility model is that the partition is used between the glass panel and the glass panel, so that when the glass panel and the glass panel are stacked, the static electricity generated can be taken away by the conductive ink line on the partition. , up to antistatic effect.

Yet another main purpose of this utility model is that the substrate of the partition itself is a kind of foamed high molecular polymer, which has the characteristics of flexibility, pressure resistance and vibration energy absorption, so that the glass panels are not easy to stack during the stacking process. The glass panel is broken due to mutual extrusion or vibration collision between the glass panel and the glass panel.

A separator, comprising: a substrate, a foamed high molecular polymer plate body; a thin film, a high molecular polymer film body, and ink with conductive properties is printed on the surface of the film. This; the upper and lower surfaces of the substrate are pasted with the thin film, so that they are combined into one body.

The substrate is a foamed polyethylene.

The substrate is a foamed polypropylene.

The film is a high density polyethylene.

The film is a low density polyethylene.

The conductive ink on the surface of the film is ink lines presenting a mesh surface.

The conductive ink on the surface of the film is an ink line presenting a line-like surface.

In the utility model, when the glass panel and the glass panel are stacked and sorted, the static electricity generated can be taken away by the conductive ink line on the partition plate, and the antistatic effect can be achieved. It can resist pressure and absorb vibration energy, so that the glass panels are not easy to break due to mutual extrusion or vibration collision between glass panels during the stacking process.

Description of drawings

Fig. 1 is an exploded view of the utility model;

Fig. 2 is the perspective view of the utility model;

Fig. 3 is the enlarged sectional view of the utility model;

Fig. 4 is an enlarged implementation side sectional view of the utility model.

Explanation of reference signs

10-spacer; 11-substrate; 111-top; 112-bottom; 12-film; 121-ink line; 20-glass panel.

Detailed ways

Please refer to Fig. 1, Fig. 2 and Fig. 3, the separator 10 is composed of a substrate 11 and a film 12;

Wherein, the substrate 11 itself is a plate body of a foamed high molecular polymer, because the foamed high molecular polymer itself has the characteristics of flexibility, pressure resistance, vibration energy absorption, and light weight, its material can be It is foamed polyethylene PE or foamed polypropylene PP, etc.;

The film 12 itself is a high molecular polymer film, and its material can be high-density polyethylene HDPE or low-density polyethylene LDPE. Ink line 11 on a shaped surface or a linear surface;

The upper and lower surfaces 111112 of the substrate 11 respectively correspond to a thin film 12, and the thin film 12 is attached to the upper and lower surfaces 111112 of the substrate 11 by heat sticking or gluing, so that the substrate 11 and the thin film 12 are integrated;

Please refer to Fig. 4, when the glass panels 20 and the glass panels 20 are stacked, the spacer 10 is inserted between the glass panels 20 and the glass panels 20, and so on for stacking, when the glass panels 20 and the glass panels 20 are stacked and arranged. When the partitions 10 are in contact, if static electricity is generated, the conductive ink line 121 on the partition 10 will lead away the static charge to prevent the static electricity from affecting the quality of the glass panel 20;

When the number of stacked glass panels 20 increases, its weight also increases relatively. In order to avoid damage to the lower glass panel 20 due to pressure, the substrate 11 of the partition 10 itself is a plate body of a foamed polymer. With the characteristics of resisting pressure and absorbing shock energy, the number of stacked glass panels 20 can be increased, and the resulting weight pressure can be absorbed and buffered, thereby protecting the lower glass panels 20 .

The above description of the utility model is illustrative rather than restrictive. Those skilled in the art understand that many modifications, changes or equivalents can be made to it within the spirit and scope of the claims, but they will all fall into Within the protection scope of the present utility model.

Claims (7)

1. a dividing plate, is characterized in that, comprising:

One substrate, a kind of plate body of high molecular polymer of expansion type;

One film, a kind of film body of high molecular polymer, and in the ink of the surface printing tool conduction property of this film in this;

The above and below of this substrate all attaches this film, and it is combined into one.

2. dividing plate as claimed in claim 1, is characterized in that, this substrate is a kind of expansion type polyethylene.

3. dividing plate as claimed in claim 1, is characterized in that, this substrate is a kind of expansion type polypropylene.

4. dividing plate as claimed in claim 1, is characterized in that, this film is a kind of high density polyethylene (HDPE).

5. dividing plate as claimed in claim 1, is characterized in that, this film is a kind of low density polyethylene (LDPE).

6. dividing plate as claimed in claim 1, is characterized in that, the surperficial electrically conductive ink of this film, for presenting the ink line of a kind of netted.

7. dividing plate as claimed in claim 1, is characterized in that, the surperficial electrically conductive ink of this film, for presenting a kind of ink line of linear face.

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