CN106168690A - Metal laser conic mirror - Google Patents

Abstract

A kind of metal laser conic mirror, it is characterised in that include the conic mirror main body of cone, axis or axis in this conic mirror main body are provided with center light string holes, and the taper seat in this conic mirror main body is coated with reflectance coating.The invention have the advantage that parallel laser light source obtains radial light (marked effect) and axial light (range finding and indicative function) after the Novel conical surface mirror system of the present invention, laser designation and laser ranging function can be realized simultaneously, and because radial light (marked effect) and axial light (range finding and indicative function) are that same light source sends, there is the advantage without extra synchronous calibration.

Description

Metal laser conic mirror

Technical field

The present invention relates to a kind of metal laser conic mirror, be mainly used in laser marker, instruction, laser ranging.

Background technology

Laser level is widely used among architectural engineering, and it has had both original level gauge, the function of theodolite line. At present, use conical reflector, beam of laser is projected on conical reflector, form a circular lasing area, project Space is formed 360 laser rays.This throwing line mode, with normally used three to four wire LASER Light Sources composition one Individual 360 laser rays are compared, and have low cost, and energy consumption is little, compact conformation, the feature that laser rays uniformity consistency is good, throw at laser In the application of line instrument product, there is reasonable superiority.

But often simultaneously need to instruction and space ranging in engineer applied, simple 360 cannot realize space length Feedback, use other range-measurement system then exist with original system cannot accurate synchronization calibration problem.

Summary of the invention

The present invention proposes a kind of new conic mirror system, and laser is obtaining radial light (marked effect) after this system With a branch of axial light (range finding and indicative function), extend the range of application of this type of optical system, enhance practicality.

The technical scheme is that a kind of metal laser conic mirror, it is characterised in that include the conic mirror master of cone Body, axis or axis in this conic mirror main body be provided with axial ray hole, and the taper seat in this conic mirror main body is coated with instead Penetrate film.

Described axial ray hole is the manhole of the axis coaxle with this conic mirror main body.

Described axial ray hole is the annular through hole of the axis coaxle with this conic mirror main body, at this annular through hole Radial direction at least provided with two junctions being uniformly distributed along the circumference.

The material of described conic mirror main body includes copper, aluminum or rustless steel, basal diameter 1～20mm.

Be coated with the coat of metal or deielectric-coating on the surface of described conic mirror main body, the material of this coat of metal include gold, Silver or chromium.

Select height and the angle of reflection of reflectance coating, the angle of reflection of described reflectance coating of conic mirror main body according to actual needs It is preferably 45 °, reflectance >=98%.

The invention have the advantage that parallel laser light source obtains radial light (mark after the Novel conical surface mirror system of the present invention It is shown as using) and axial light (range finding and indicative function), laser designation can be realized simultaneously and laser ranging function (has sensing simultaneously Function), and because ring light and axial light (range finding and indicative function) are that same light source sends, have without extra synchronous calibration Advantage.

Accompanying drawing explanation

Fig. 1 is the axial arrangement sectional view of first embodiment of the invention；

Fig. 2 is the embodiment illustrated in fig. 1 light path schematic diagram when application；

Fig. 3 is the axial arrangement sectional view (the A-A sectional view of Fig. 4) of second embodiment of the invention；

Fig. 4 is the top view of Fig. 3；

Fig. 5 is the upward view of Fig. 3；

Fig. 6 is invention the second embodiment light path schematic diagram when application.

Description of reference numerals: 1, parallel laser light source；2, conic mirror main body；3, radial light；4, axial light (is found range and indicates Effect)；5, reflectance coating；6, axial ray hole；7, junction；.

Detailed description of the invention

See Fig. 1, the first embodiment of the present invention a kind of metal laser conic mirror, including the conic mirror main body 2 of cone, Axis in this conic mirror main body 2 is provided with coaxial manhole as axial ray hole 6, at the circular cone of this conic mirror main body 2 Face is coated with the reflectance coating 5 to parallel laser light source 1 with reflection.

Seeing Fig. 2, above-described embodiment is in use, a part of light of parallel laser light source 1 is from conic mirror main body 2 top Center light string holes 6 is through as range finding and guidance light 4；The light of parallel laser light source 1 periphery is reflected film 5 and obtains cincture The linear radial light 3(marked effect of radiation of 360 °).

Seeing Fig. 3～Fig. 6, second embodiment of the invention is a difference in that with a upper embodiment, described central ray Hole 6 is the annular through hole of the axis coaxle with this conic mirror main body 2, in the radial direction of this annular through hole at least provided with two edges The junction 7 of circumference uniform distribution.

The application of this embodiment is identical with a upper embodiment with operation principle.

The material of the conic mirror main body 2 of the present invention includes copper, aluminum or rustless steel, and surface accurate polishes, basal diameter 1～ 20mm.Height and the axial cutting of taper seat of angle of reflection a(conic mirror main body 2 of conic mirror main body 2 can be selected according to actual needs Angle between line and radial direction, as shown in Figure 2), needs to select metal film or deielectric-coating, angle of reflection a according to different operating wavelength It is preferably 45, reflectance >=98%.

Described parallel laser light source 1 can be semiconductor laser, solid state laser, dye laser or gas laser Deng, optical maser wavelength can select visible ray or the ultraviolet of specific use and infrared light as required.

Claims (6)

1. a metal laser conic mirror, it is characterised in that include the conic mirror main body of cone, at the axle of this conic mirror main body Line or axis are provided with axial ray hole, and the taper seat in this conic mirror main body is coated with reflectance coating.

Metal laser conic mirror the most according to claim 1, it is characterised in that described axial ray hole is and this conical surface The manhole of the axis coaxle of mirror main body.

Metal laser conic mirror the most according to claim 1, it is characterised in that described axial ray hole is and this conical surface The annular through hole of the axis coaxle of mirror main body, in the radial direction of this annular through hole at least provided with two connections being uniformly distributed along the circumference Place.

Metal laser conic mirror the most according to claim 1, it is characterised in that the material of described conic mirror main body includes Copper, aluminum or rustless steel, basal diameter 1～20mm.

Metal laser conic mirror the most according to claim 4, it is characterised in that at the plated surface of described conic mirror main body Having the coat of metal or deielectric-coating, the material of this coat of metal includes gold, silver or chromium.

Metal laser conic mirror the most according to claim 1, it is characterised in that select conic mirror main body according to actual needs Height and the angle of reflection of reflectance coating, the angle of reflection of described reflectance coating is preferably 45 °, reflectance >=98%.