KR20080005659U - The Method of optical device protection housing Front glass - Google Patents

Abstract

The present invention relates to the front glass structure of the housing for the protection of the optical device, due to the reflected light generated when the light beam from the optical device passes through the housing windshield on the front glass of the housing for the protection of the optical device It is about a structure for minimizing interference and loss of light.

This is characterized in that the front glass structure of the housing for the protection of the optical device is attached to the front glass 40 in the light beam direction of the optical device and less than 45 degrees in the interior of the hood.

Optic housing, optic windshield, light loss, reflected light.

Description

{The Method of optical device protection housing Front glass}

1 is a schematic diagram schematically showing a housing of a conventional general optics;

Figure 2 is a schematic diagram showing an example of a method for applying a housing windshield for protecting the optical device according to the present invention;

3 is an explanatory diagram for explaining a transmission and reflection path of a light beam according to the configuration of FIG. 1;

FIG. 4 is an explanatory diagram for explaining the transmission and reflection paths of light rays according to the configuration of the embodiment shown in FIG.

<Explanation of symbols for main parts of the drawings>

10: housing, 20: optical instrument,

30: hood, 40: front glass,

50: cooling device, 60: connector

70: transmission light, 71: reception light,

80: reflected light 100: measurement object

The present invention relates to a front glass structure of a housing that is accommodated for the protection of the optical device, and more particularly, the light rays generated from the optical device to pass through the housing windshield on the front glass of the housing for the protection of the optical device It is about the structure to minimize the interference and the loss of the light due to the reflected light occurs.

In general, optical devices are devices for shape, distance measurement, optical communication, etc. using light rays, and are widely used for measurement or automation in industrial fields.

Most of the optical devices used in the industrial field are mostly stored in a separate housing to protect the optical devices in dust, high temperature, and high temperature environments. The front surface of the housing can pass light rays such as glass. Transparency is used.

As a conventional method of the housing used in such an industrial site is the method as in Utility Model No. 0149095.

Optical instruments, however, measure the amount or time that light from the optics reflects and returns to the object under test, resulting in a reduction or loss in the amount of light as it passes through the glass on the front of the housing, resulting in a shorter measurement distance or measurement. This impossible problem is occurring.

The above problem is that the measurement distance is shortened due to the decrease in the amount of light due to the glass's transmittance when the light passes through the glass surface vertically attached to the housing, but the measurement is more impossible due to the light reflected back to the glass surface. It is causing a big problem.

 To solve this problem, high transmittance non-reflective glass is used, but it is not completely solved.

The present invention is devised to overcome the disadvantages of the prior art as described above,

It is a technical problem to provide an optical device housing housing which can prevent an unmeasured state and minimize interference of reflected light by adjusting the angle of the front glass of the housing and reflecting the reflected light back to the glass surface.

The present invention to achieve the above technical problem, the housing for protecting the optical device; A front glass attached to the front surface of the housing to prevent dust from flowing into the housing and to freely pass the light beam of the optical device, and to tilt at an appropriate angle to minimize the loss of the light; A hood on the front of the housing to protect the front glass from interference or dust from sunlight; A cooling device for preventing a temperature increase inside the housing; It characterized in that it comprises a connector for connecting the electrical or measured signal to the optical device to the outside of the housing.

Preferably, the front glass is attached to the hood attached to the front of the housing.

More preferably, it is good to attach the angle of the said windshield to 15 degrees or more and less than 45 degrees.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of the aspect related to the front glass structure of the housing accommodated for the protection of the optical device according to the present invention.

1 is a conventional structure of a conventional housing for protecting the optical device by attaching the glass 40 to the front of the housing 10 for protecting the optical device 20, light passes through and foreign matter such as dust penetrates into the housing Instead, a structure for attaching a hood is used to minimize interference of light such as sunlight.

FIG. 3 is an explanatory view for explaining a path of light rays of a housing for protecting an optical device. FIG. 3 illustrates a windshield 40 having a light beam 71 generated by the optical device 20 inside the housing at a right angle to the light beam. The light beams 72 passing through the light beams 80 reflected from the object to be measured again pass through the windshield 40 of the housing to reach the optical device 20, and the returned light beams are read and represented as shapes or distances. It is common.

However, when the light beam 70 generated by the optical device passes through the windshield 40 of the housing rather than the object to be measured, it depends on the transmittance of the glass, but most of the light beam passes through and is reflected by the measurement object 100. ) Is returned to the optics inside the housing, and the loss of light (81) generated in this process causes a shorter measurable distance, but a larger problem is a slight problem when the light beam is transmitted perpendicular to the glass surface (40). Due to the phenomenon that the reflected light 71 is generated and the reflected light is returned to the optical device, the measurement becomes impossible.

Figure 2 is a schematic diagram showing the structure of the front glass housing for protecting the optical device according to the present invention, the structure for attaching the glass to the front surface of the protective housing 10 incorporating the optical device 20 and installing the hood Similar to

However, the front glass 40 is attached to the inside of the hood in the light direction of the optical device and less than 45 degrees to less than 45 degrees to prevent the inability to measure due to the light reflected from the windshield and back to the optical device and to minimize the interference of the reflected light. To do this.

It describes the protective action of the housing front glass structure of the optical device of the present invention having the above configuration. 4 is an explanatory view schematically showing the transmission and reflection path of light rays by the housing glass structure for protecting the optical device according to the present invention, when the light beam 70 generated by the optical device 20 passes through the windshield. It depends on the reflectance and transmittance of, but most of the light beams pass through and the reflected light beams 71 are refracted in the 90 degree direction with the glass surface to prevent an unmeasured state due to the light rays reflected from the glass surface and returned to the optical device 20. have

According to the above-described glass structure of the housing for protecting the optical device according to the present invention as described above, the front side of the hood attached to the front surface of the housing for protecting the optical device gives an angle of 15 degrees or more and less than 45 degrees to the light direction of the optical device. By attaching the glass, it is possible to prevent the inability to measure due to the noisy reflected light reflected on the glass surface and return to the optical device and to minimize the interference of the reflected light. This has the effect of minimizing interference from the unnecessary light to the optical device, thereby maintaining the performance of the optical device in a stable state.

Claims (3)

A housing for protecting the optics; A front glass attached to the front surface of the housing to prevent dust from flowing into the housing and to freely pass the light beam of the optical device, and to tilt at an appropriate angle to minimize the loss of the light; A hood on the front of the housing to protect the front glass from interference or dust from sunlight; A cooling device for preventing a temperature increase inside the housing; An optical device housing housing glass structure comprising a connector for connecting an electrical or measurement signal to the optical device outside the housing. The housing glass structure of claim 1, wherein the front glass is attached to a hood attached to the front surface of the housing.       The housing glass structure of claim 1, wherein the front glass is attached to a hood attached to the front surface of the housing.

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