CZ300803B6 - Device for correcting parameters of laser radiator, particularly for leveling applications in building industry and method for its manufacture and adjustment - Google Patents

Abstract

The present invention relates to a device for correcting parameters of a laser radiator consisting of a body (6) having a cylindrical hole in the longitudinal axis of which there are slidably mounted two cylindrical casings (2) with laser radiators (3) disposed therein opposite to each an other. The casing (2) faces are provided with removable front holders (4) serving for securing correction converging lenses (5) with extremely great focal distance and with a central hole (14) having its center in the longitudinal axis of the casings (2) wherein said central hole (14) diameter (d) equals to or is smaller than one half of the laser radiator (3) beam (1) diameter (D). The thickness (t) of the lenses (5) at the place of circular edge of the central hole (14) corresponds to one of thicknesses where trajectory difference caused by different speed of light propagation within air medium of the central hole (14) and in optical medium of the lens (5) material equals or nears to one half of a light wavelength emitted by the laser radiator (3). Adjustment and production of the device is characterized in that a distance is determined at which an optimal pattern of a laser radiator (3) beam (1) is required. Subsequently, correction converging lenses (3) selected from a group of lenses (5) with gradually increasing thickness are successively put to the laser radiator (3) and influence thereof to the beam (1) pattern (13) in the determined distance is monitored. According to the determined nearest lower thickness to the thickness of the expected optimal pattern (13), a lens (5) blank or a disk of a plane-parallel plate of clear plastic is selected and successively polished. In such a manner, optical thickness of a lens (5) increases and compares with thickness corresponding to the expected optimal pattern (13). After the final lens (5) thickness is achieved, an axial central hole (14) is performed therein.

Description

Device for correction of laser beam parameters, especially for leveling applications in building industry and method of its production and adjustment

Technical field

The present invention relates to a device which is designed to modify and maintain the beam properties of mass produced diode laser emitters so that a significantly higher percentage of produced laser emitters of normal quality can be used for leveling applications in the construction industry,

BACKGROUND OF THE INVENTION

The application of laser technology for more demanding geodetic measurements in the construction industry has led to the need to use state-of-the-art laser technology, which is still uneconomically unrealistic in its purchase costs or to obtain an extremely good range of diode lasers and enhanced fracture effects by special grids. increase the proportion of laser beam energy emitted by the outer interference circles forming a target image on the screen of the fixture to control the distance of the beam from the measured location of the structure to be inspected. Only the economically inefficient and generally universal solution has been able to develop the methodology of adjusting the laser output optics parameter based on the analogy of the human eye function.

The main common disadvantage of all known solutions is the cost of technical equipment, which would be able to compete in the field of demanding geodetic measurements of the building industry with the possibilities of classical geodetic equipment. The paths of increased dissipation of light energy into interference rings lead to large differences in surface radiation, so a trade-off between the need to reduce the max. Area intensity of light beam energy for safety reasons while ensuring good visibility of the interference rings observed on the screen and under30 often unrealistic. Another disadvantage of this path is that, unlike the central beam, the diameter of the interference rings, which, by their principle, increases with the distance from the emitter, is a solution that brings advantages in applications at a distance of only up to about 20 m.

SUMMARY OF THE INVENTION

The disadvantages of the prior art solutions are eliminated or significantly reduced by the laser beam parameter correction device mounted on the frame of the leveling device and the method of adjusting the parameters and manufacturing of the device in order to improve them especially for application in leveling measurements according to the present solution.

The essence of the device for correcting the parameters of a laser emitter beam for leveling applications in the construction industry is that it consists of a body with a cylindrical bore in the longitudinal axis of which two cylindrical bushings are slidably mounted. In these cylindrical housings, laser radiators are arranged opposite each other and are thus oriented in opposite directions. The fronts of the housings are provided with removable front holders, each correcting lens having an extremely large focal length and a central aperture centered on the longitudinal axis of the housings. The diameter of the central orifice is equal to or less than half the diameter of the beam from the laser emitter. The thickness of the lenses associated therewith at the circular edge of the central aperture corresponds to some of the thicknesses where the path difference caused by the different light propagation velocity in the central aperture airborne and the optical environment of the lens material is equal to or near half the wavelength of light emitted by the laser emitter.

In a preferred embodiment, the central aperture of the corrective lenses for each laser emitter has a compensating ovality which provides a circular shape to the corresponding interference ring on the screen approximately 20 m or more.

Laser pointers can advantageously be used as cylindrical bushings with face holders and inserted laser emitters.

In one possible embodiment, the cylindrical bore body may be an integral part of the leveling frame.

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The essence of adjusting and manufacturing said device is first to determine the distance at which an optimal beam image from the laser emitter is required. Thereafter, corrective lenses from the test series of corrective lenses are gradually applied to the laser emitter with increasing thickness. Their influence on the image of the beam at this determined distance is monitored and, according to the closest lower power to the power of the expected optimum image, a lens blank or disc of planar parallel plate of clear plastic is selected, which is subsequently polished. This increases the optical power of the lens, which is continuously compared with the power corresponding to the expected optimum image. Once this is achieved, an axial central opening is formed in the lens.

The main benefit of the present solution is that, in parallel with the deterioration of the circular image contour of the laser beam image on the screen as it moves away, it complements this image with an internal unlit interference ring, that is, a ring in the fully illuminated area of the image. In addition, the proposed method of adjusting the optical power of the corrective lens does not require any special technological equipment, and in the case of serial production of the respective laser leveling technique, the methodologies known from the optician's optics system can be fully applied. For the implementation, large-scale commercial products such as laser pointers can be advantageously used, which leads to virtually the same utility value as expensive beam-decomposition devices with semi-transparent mirrors. Moreover, the device makes it possible to eliminate the most common defect of lasers made for undemanding preparations, which is the ovality of the beam, by very easy alignment of the ova30 axis so that this defect does not increase the uncertainties of the leveling measurement.

Overview of the drawings

An example of a device for correcting laser beam parameters for leveling applications in the building industry is schematically indicated in FIG. I. FIG. 2 illustrates the operation of the device and FIG. 3 shows one possible method of manufacturing a correction lens of the device.

DETAILED DESCRIPTION OF THE INVENTION

A typical application of the present invention is a laser beam source X emitter for a control system used to measure bridge deflection in a load test, which is schematically indicated in Figure 1.

For this purpose, a jig is used with two opposing laser radiators 3 mounted in a cylindrical housing 2, preferably directly in series produced laser pointers. Their advantage is that they are equipped with a front aperture holder 4, which can be replaced by a laser 5 correction lens 5 with a central aperture 14. To fix the cylindrical bushes 2 in the fixture there is a body 6 with a cylindrical aperture with cylindrical bushings. 2 mounted slidingly. In this example, the body 6 with the cylindrical bore is formed directly in the frame 7 of the leveling device. This frame 7 also provides a battery source housing 8 and a magnetic clip 9, which the leveling device attaches to the prism 10 cemented in the desired position on the structure to be inspected, for example in the middle of the loaded bridge field. Laser fixing

-2GB 3Θ08Θ3 B6 of the emitters 3 through the cylindrical bushing 2 in the housing bore 6 allows the emitter 3 to be easily rotated so that the shorter axis of the elliptical cross-section of the laser emitter 3 is parallel to the laser beam direction I. The power supply of the laser emitters 3 is alternative, either external via terminals 12 or internal from a battery source

8 via switch 11 ·

The lens 5 is formed by a connecting lens with a central aperture 14, the diameter of which is ideally half the diameter of the beam 1 of the laser emitter 3 or possibly smaller. The bonding lens 5 is a lens with an extremely large focal length, i.e. about 20 m or more. It is advantageous to use laser pointers for the consortium devices, since they are usually already provided with a front aperture holder. The adjustment of the optical power of the lens 5 can then be carried out very easily in a stepwise manner. First, the distance at which the optimum image 13 of the beam 1 from the laser emitter 3 is required is then applied to the laser emitter 3 with the aperture removed sequentially with the progressively increasing lens thickness of the lens assembly 5 and their effect on The image 13 of the beam I at a predetermined distance, for example at a distance of about 20 m. According to the closest detected lower power to the power of the presumed optimum, a lens blank or disc of planar parallel plate of clear plastic is selected and gradually polished to increase the optical power. This is continuously compared with a thickness corresponding to the optimum image 13. Upon reaching the lens, an axial central aperture 14 is formed in the lens 5 and the lens is fixed to the device by the holder 4. One of the ways how the semi-product of the lens 5 or the plate from the planar-parallel plate of clear plastic can be modified is shown in Fig. 3. As a device it is possible to use a table drilling machine. The lens 5 is supported by rubber 18 in the shaft depression T7, so that the lens 5 protrudes from the thickness of the rubber 18 from the shaft depression 18. By pressing the rotating lens 5 by force P onto the paper-coated backing 19, the lens shape is polished In order to reduce the risk of unwanted consequences of the unevenness of the paper sticker 20, an oscillating movement in the plane perpendicular to the shaft axis 17 is given to the pad 19 when polishing the lens 5. The smooth movement of the lens 5 from the shaft 17 into the laser pointer holder 4 allows gradual optimization Later, the lens 5 is provided with an axial opening 14 with a diameter d equal to or less than half the diameter D of the beam 1 from the laser emitter 3 passing through the lens 5. Since the thickness t of the lens 5 is chosen to cause passing beam 1 a delay corresponding to half the wavelength of the laser light emitted, or delay (η + 14) λ, where n is a positive integer including 0 and λ is the wavelength of the laser emitter 3 used, interference of portions of beam 1 passing through through the aperture 14 and the beam portion 1 passing through the intact portion of the lens 5 and thereby forming unlit rings 21 of the image 13. See Fig. 2. These rings 21 are preferably useful for determining the beam position by optical means.

The key application interest and quality parameter of the laser beam 1 for the subject matter of the present invention is the ability of the image 13 to allow maximum accurate centering of the image 13 on the screen of the reading device. Therefore, the main purpose is to minimize the diameter of the contour line of the image 13 and the ring 21, respectively. This solution is achieved both by a new system of gradual adjustment of the optical power of the lens 5 and by an easy to implement correction ovality of the central aperture 14, but especially by a new method of inner interference ring 21 whose diameter 45 is substantially smaller than the outer diameter emitters 3.

-3GB 300803 B6

Industrial applicability

The device for correcting the parameters of the laser beam is useful for leveling applications in 5 construction sites. It improves special geodetic methods for controlling quasi-static mechanical movements while monitoring the reduction of measurement uncertainties while reducing the cost of geodetic measurement methods. In this sense, it is a narrowly specialized invention.

Claims (5)

PATENT CLAIMS An apparatus for correcting laser beam parameters, in particular for leveling applications in the building industry, mounted on a leveling frame (7), characterized in that it consists of a body (6) with a cylindrical bore in its longitudinal axis. 2), in which the laser emitters (3) are arranged opposite and the faces of these cases (2) are provided with removable front holders (4), where a correction is fixed in each front holder (4) 20 an extremely long focal lens (5) having a central aperture (14) centered on the longitudinal axis of the capsules (2) having a diameter (d) equal to or less than half the diameter (D) of the laser beam (1) 3), wherein the thickness (t) of the corrective lenses (5) at the circular edge of the central aperture (14) corresponds to one of the thicknesses where the path difference caused by the different light propagation rate in the air of the central aperture (14) and the optical environment the lens (5) is equal to or near half the wavelength of the light emitted by the laser emitter (3) Device according to claim 1, characterized in that the central opening (14) of the corrective lenses (5) has a compensating ovality for each laser radiator (3). Device according to claim 1 or 2, characterized in that laser pointers are used as cylindrical bushings (2) with front supports (4) and inserted laser radiators (3). Apparatus according to any one of claims 1 to 3, characterized in that the body (6) p 35 is an integral part of the leveling device frame (7). Method for adjusting and manufacturing a device according to Claims 1 to 4, characterized in that the distance at which an optimum image (13) of the beam (1) from the laser emitter (3) is desired is determined, then to the laser emitter (3) gradually apply correction lenses (5) from the test series 40 corrective lenses (5) with stepwise increasing power, their influence on the image (13) of the beam (1) at this determined distance is monitored, according to the nearest nearest power to the expected optimum image (13), or a planar-parallel plate of clear plastic, which is gradually polished, thereby increasing the optical thickness of the lens (5), which is continuously compared with the thickness corresponding to the expected optimum image (13) 45 and upon reaching this, an axial central opening (14) is formed in the lens (5).