KR20180000862U - Target apparatus for electro-optical distance measuring - Google Patents

Abstract

A target apparatus for a photovoltaic telemeter is provided. The apparatus includes a target bar having a measurement point member at one end; Two reflective prisms disposed at regular intervals in the target bar; An intermediate bar rotatably coupled to the target bar; A support bar fixed to the other end of the intermediate bar; And a fixing block rotatably supporting one end of the supporting bar and attached to the measurement object. According to the present invention, a reflection prism is adopted, and a reflection prism can be adjusted to various measurement postures, thereby widening the reference point incidence angle, thereby broadening the check width.

Description

[0001] The present invention relates to a target apparatus for electro-

The present invention relates to a target device of a photovoltaic wavemeter for measuring coordinates of large structures such as ships, bridges, civil engineering buildings, and the like.

In order to measure the shape of large structures such as ships, bridges, and civil engineering buildings, two-dimensional measuring devices using a transit tape measure and weight are used. In recent years, triangulation, distance measurement using a photovoltaic wavemeter, and measurement by a three-dimensional measuring apparatus using an angle measuring method have been conducted in recent years.

When the light source is accurately reflected from the target and then incident on the optical wavefront ter- minal, the light wave radar is modulated by modulating the carrier wave and the time difference or phase difference of the reflected wave of the light source To measure the distance between two points.

Such a photovoltaic wavemeter is not only easy to use but also reliable in measurement values, so it is mainly used for measuring the circumference, height, or distance of buildings, bridges, and tunnels.

In the drying process of the ship, it is necessary to measure the circumference, height, distance, etc. of the structure, that is, the large block.

According to the prior art, for example, a planar laser reflecting target having a cross-shaped aiming mark on a circular plane as a target of a reflecting device was used to measure the circumference, height distance, etc. of a large block of a ship.

In the case of using the flat plate type laser reflection target in this way, focusing work such as a telescope or a photographing screen of a photovoltaic wave source is complicated in the collimation work, and time is required for the collimation work, and measurement error occurs. The use of a planar laser reflecting target requires visual inspection, which requires cumbersome operations, takes an excessive amount of time for the collimating operation, generates an error due to a difference in reflection angle depending on the visual acuity and collimation position of the measurer, There is a problem.

In case of using the flat plate type laser reflecting target, an error occurs when the incident angle is 120 degrees or more. Therefore, it is necessary to move a large amount of equipment when installing the reference point, and there is a problem that a checkpoint impossibility occurs and measurement and operation time are long.

Korean Patent Publication No. 2002-0097172

The object of the present invention is to provide a target device of a photovoltaic wave fader for easily installing equipment so that the incidence angle of the light wave is widened and the target point is easily seen.

According to the present invention, a target bar having a measurement point member at one end; Two reflective prisms disposed at regular intervals in the target bar; An intermediate bar rotatably coupled to the target bar; A support bar fixed to the other end of the intermediate bar; And a fixed block rotatably supporting one end of the support bar and attached to the measurement object.

The intermediate bar may be coupled to the target bar via a 360-degree rotating hinge member, and the supporting bar may be coupled to the stationary block through a 360-degree rotating hinge member.

The fixed block may include a magnet member attached to a measurement object made of a steel plate by a magnetic force.

The measurement point member may be detachably coupled to the target bar.

The intermediate bar may be fixed orthogonally to the support bar via a fixing bolt.

According to the present invention, by using a reflective prism as a target of a target device, the incidence angle of the light wave is widened, and the check width is widened, so that equipment installation movement can be reduced and accuracy can be improved.

According to the present invention, the structure of the supporting device for supporting the reflecting prism is formed into a joint shape, so that the reflecting prism can be easily and firmly mounted on the measuring object. In particular, it is possible to easily measure a complicated measurement position due to a complicated shape of the measurement object or the like.

FIG. 1 is a perspective view showing the configuration of a light wavefront target and a target device according to the present invention. FIG.
2 is a partial cross-sectional view showing the structure of a target device according to the present invention.
3 is an enlarged sectional view showing a configuration of a 360-degree rotating hinge member applied to a target device of the present invention.
4 is an enlarged view of the arrow IV in Fig.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings. It should be understood, however, that the present invention is not limited to the disclosed embodiments, but may be embodied in many different forms and should not be construed as being limited to the exemplary embodiments set forth herein, To be provided.

FIG. 1 is a perspective view showing a configuration of a conventional wave device and a target device according to the present invention, and FIG. 2 is a partial cross-sectional view showing the configuration of a target device according to the present invention.

1 and 2, the target device 100 of the optical wavefront measurement device includes a reflective prism 120, a target bar 110, an intermediate bar 140, a support bar 150, and a fixed block 160 .

The reflecting prism 130 is disposed at a predetermined interval on the target bar 120 to receive and reflect the irradiated light from the light source of the optical wavefront detector 3. [

According to the present invention, the use of the reflective prism 130 widens the angle of incidence of the light wave, which widens the check width, thereby reducing equipment installation movement and improving the check accuracy. That is, according to the present invention, the center point measurement can be performed even when the collimation is performed to a position adjacent to the center point of the reflecting prism 130, so that the collimation operation can be simply performed.

The target bar 120 has a measurement point member 110 at one end and arranges two reflecting prisms 130 at regular intervals. The intermediate bar 140 is rotatably coupled to the target bar 120 and the support bar 150 is rotatably coupled to the other end of the intermediate bar 140. The other end of the support bar 150 is engaged with a fixed block 160 which can be attached to the measurement object 5. In Fig. 1, the measurement object 5 is replaced with the floor of the indoor space.

The intermediate bar 140 is fixed to the target bar 120 through a fastening block 190. The coupling block 190 may have a ring shape such that the other end side of the intermediate bar 140 is fixed and the target bar 120 is enclosed. The fastening bolts 191 are passed through the fastening block 190 on the opposite side to the intermediate bar 140 so that the fastening block 190 is constrained to a predetermined position of the target bar 120.

The intermediate bar 140 is rotatably coupled to the target bar 120 through a 360 degree rotating hinge member 170 and the supporting bar 150 is rotatably coupled to the fixed block 160 through a 360 degree rotating hinge member 170 And can be rotatably coupled.

The fixed block 160 may include a measurement object made of an iron plate material, for example, a magnet member attached to a block of a ship by a magnetic force.

The measurement point member 110 may be removably coupled to the target bar 120. The measurement point member 110 is constituted by a needle-shaped main body 111 having a sharp end. The measurement position can be accurately set by such a pointed tip. The measurement point member 110 may be releasably coupled to the target bar 120. For example, a threaded portion 113 may be formed at one end of the main body 111 of the measurement point member 110 and screwed to the target bar 120. Since the measurement point member 110 is configured to be detachable as described above, when the tip of the measurement point member 110 is worn out due to long use, the measurement point member 110 can be easily replaced and used as a new measurement point member.

FIG. 3 is an enlarged view showing a configuration of the 360-degree rotating hinge member 170 of FIG.

2 and 3, the 360-degree rotating hinge member 170 includes a hinge housing 171 and a hinge ball 173, and a ball fixing shaft 172 is coupled to one side of the hinge ball 173 . The ball fixing shaft 172 may be fixed to a fastening block 190 that fastens the fixing object such as the fixing block 160 or the intermediate bar 140 to the target bar 120.

The intermediate bar 140 and the support bar 150 can move jointly through the 360 degree rotation hinge member 170 to support the reflection prism 130 in various postures. As a result, it is possible to support the reflecting prism 130 appropriately corresponding to various objects such as various shapes, positions, etc. of the large block of the vessel. Therefore, it is possible to reduce measurement time and measurement error by reducing equipment movement, and to widen the measurement range.

4 is an enlarged view of the arrow IV in Fig.

Referring to FIGS. 2 and 4, the intermediate bar 140 is fixed orthogonally to the support bar 150 via the fixing bolt 180.

With this configuration, the reflective prism 130 can be installed in various postures with respect to the measurement object. As a result, it is possible to reduce the number of non-checkpoints and to increase the accuracy of the check because the equipment is not moved much when the reference point is installed, and the measurement and the working time can be reduced.

Although the present invention has been described with reference to the accompanying drawings and the preferred embodiments described above, the present invention is not limited thereto but is limited by the claims of utility model registration described later. Accordingly, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope of the invention as set forth in the appended claims.

100: Target device 110: Absence of measurement point
120: Target bar 130: Reflective prism
140: intermediate bar 150: support bar
160: fixed block 170: 360 degree rotating hinge member

Claims (5)

A target bar having a measurement point member at one end;
Two reflective prisms disposed at regular intervals in the target bar;
An intermediate bar rotatably coupled to the target bar;
A support bar fixed to the other end of the intermediate bar; And
And a fixed block rotatably supporting one end of the support bar and attached to the measurement object. The target device of Claim 1, wherein the intermediate bar is coupled to the target bar via a 360 degree rotating hinge member, and the supporting bar is coupled to the fixed block via a 360 degree rotating hinge member. The target device of claim 1, wherein the fixed block includes a magnet member attached to a measurement object made of a steel plate by magnetic force. 2. The target apparatus of claim 1, wherein the measurement point member is detachably coupled to the target bar. The target device of claim 1, wherein the intermediate bar is fixed orthogonally to the support bar via a fixing bolt.

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