CN201397297Y - Glass sidelight checking device - Google Patents

Abstract

The utility model discloses a glass sidelight checking device, wherein one side of a bearing platform is provided with a sidelight box, a luminous lamp tube is arranged in the sidelight box, and is provided with an elongated light groove which positively faces to the glass side on the lateral surface of the luminous lamp tube facing to the bearing platform. Compared with an existing glass eye-measurement checking method, when impurities or bubbles exist in glass, since the refractive index is different to that of glass, light forms bright specks on the surface of glass after being refracted byimpurities or bubbles, can be easily observed, and the checking accuracy is extremely high. The glass sidelight checking device has simple structure and extremely low cost, and is suitable for wide popularization, and can check glass end products with same mediums no matter to planes or cambered surfaces.

Description

A kind of glass cowl lamp verifying attachment

Technical field

The utility model relates to glass verifying attachment field, relates in particular to glass cowl lamp verifying attachment field.

Background technology

Weigh the height of glass quality of finished, impurity that it includes and bubbles volume are very important.Impurity and bubbles volume in the check glass still do not have more suitable instrument or equipment at present, generally is with the naked eye to estimate, and this method not only consumes manpower, and the check accuracy rate is also lower.

Summary of the invention

The purpose of this utility model is to provide a kind of impurity in the accurate check glass and device of bubbles volume of being directly used in.

For achieving the above object, carrying platform one side of the present utility model is provided with the cowl lamp box, the built-in luminous lamp tube of cowl lamp box, and it has the long and narrow light groove over against the glass side on the side of carrying platform.

After adopting said structure, the utility model is compared with existing glass visualize method, has the following advantages:

1, the utility model utilization is that light is propagated in medium, the principle that different medium refraction indexs is different, when the light that luminous lamp tube sent in the cowl lamp box after the light groove penetrates, directly the glass side on being docked at the light groove enters in the glass to be tested, because the medium in the glass all is identical, light refractive index therein is identical, therefore by the surface observation of glass, can't see the high light phenomenon.If exist impurity or bubble in the glass, because its refractive index is different with glass, light at glass surface formation speck, is easy to just observe after impurity or bubble reflect, and the accuracy rate of detection is high.

2, of the present utility model simple in structure, cost is extremely low, is suitable for extensive popularization.

3 so long as the glass finished product of same media, though be the plane or cambered surface, as long as its side on one side is docked on the light groove, guarantee that light directly enters in the glass, light just can carry out freely conducting in glass, and impurity or bubble that will be wherein be reflected in glass surface, and the utility model is adapted to the check of multiple glass.

The length of light groove of the present utility model greater than to the length of glass side, its height is greater than the thickness of glass.Like this, can all be verified light-illuminating in disposable assurance glass inside, its accuracy rate is higher.

Cover shading paulin on the carrying platform of the present utility model.Like this, can effectively avoid the interference of external light source, improve the check accuracy rate assay.

Description of drawings

Below in conjunction with accompanying drawing the utility model is described in further detail:

Fig. 1 is a structural representation of the present utility model;

Fig. 2 is the structural representation that covers the shading paulin on the utility model;

Fig. 3 is the structural representation that the utility model is used for flat glass;

Fig. 4 is the structural representation that the utility model is used for globoidal glass.

Embodiment

See also shown in Figure 1, carrying platform 1 one sides of the present utility model are provided with cowl lamp box 2, cowl lamp box 2 built-in luminous lamp tubes, it has the long and narrow light groove 21 over against the glass side on the side of carrying platform 1, the length of light groove 21 greater than to the length of glass side, its height is greater than the thickness of glass.

See also shown in Figure 2, cover shading paulin 4 on the carrying platform 1 of the present utility model.

See also Fig. 3, shown in Figure 4, the utility model can be used for the check of flat glass 3, also can be used for the check of globoidal glass 5, as long as its side 31,51 on one side is docked on the light groove 21, assurance light directly enters in the glass and gets final product.

Claims (3)

1, a kind of glass cowl lamp verifying attachment, the carrying platform that it mainly comprises horizontal positioned is characterized in that: carrying platform one side is provided with the cowl lamp box, the built-in luminous lamp tube of cowl lamp box, it has the long and narrow light groove over against the glass side on the side of carrying platform.

2, a kind of glass cowl lamp verifying attachment as claimed in claim 1 is characterized in that: the length of light groove greater than to the length of glass side, its height is greater than the thickness of glass.

3, a kind of glass cowl lamp verifying attachment as claimed in claim 1 or 2 is characterized in that: cover shading paulin on the carrying platform.

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