KR102222293B1 - A measuring instrument for model ship length using a laser - Google Patents

Abstract

The present invention relates to a length measuring device for a model ship using a laser beam. According to the present invention, the length measuring device for the model ship using the laser beam includes: a first frame; a second frame spaced apart from the first frame by a predetermined interval; a left and right adjustment device unit which is installed in the first frame and the second frame to adjust the left and right alignment of the model ship by irradiating the laser beam to station marking of the model ship; and a model ship length measurement unit which is installed in the first frame and the second frame to measure the length of the model ship by irradiating the laser beam. According to the present invention, by accurately adjusting the left and right alignment of the model ship, it is possible to further increase the accuracy in measurement of the length of the model ship using the laser beam.

Description

Model ship length measuring device using laser {A MEASURING INSTRUMENT FOR MODEL SHIP LENGTH USING A LASER}

The present invention relates to an apparatus for measuring the length of a model ship using a laser, and more specifically, a left and right adjustment device and a model ship length measurement part are provided in the first and second frames in which the fore and aft parts of the model ship are arranged. The present invention relates to a model ship length measuring device using a laser that enables accurate and easy measurement of the length of a model ship, which was difficult to measure.

In general, in order to evaluate the various performances that can occur while the ship is sailing, a model ship reduced to the same shape is manufactured, and then various model tests are performed in a towing tank.

Accordingly, the towing tank may refer to a facility that performs a model test by manufacturing a model ship similar to an actual ship in order to know the operational performance of various ships.

In addition, the model ship is manufactured to satisfy the law of geometric similarity, and it may be important to manufacture it in a shape such as a solid line.

Therefore, it is necessary to check whether the completed model ship satisfies the geometric similarity through the inspection process.

A model line that does not satisfy the solid line and geometrical similarity has a problem that an error inevitably occurs in estimating the performance of the solid line.

General model ship inspection includes all accurate production and marking of the length, width, marking, and other accessories of the model ship. Since there are many parts, it is difficult to accurately measure the length of the model ship, especially during the model ship inspection.

Currently, the conventional method of measuring the length of a model ship uses a method of holding a specific reference point such as the bulb start point or the center of the rudder axis at the fore and stern of the model ship and measuring the length with a tape measure, etc. It is difficult to accurately measure the length of model ships with many curved parts.

Therefore, it is possible to measure the length of the model line more accurately and easily, where it was difficult to derive accurate and easy measurement values due to the large number of curved parts. This model satisfies the law of geometric similarity of the model line so that there is no error in estimating the performance of the solid line. There is a need to develop a line length measuring device.

[Patent Document] KR 10-1460457 (Registration Date November 04, 2014)

In order to solve the above problems, the present invention provides a first frame and a second frame to be spaced apart from each other so as to be disposed at the fore and aft of the model ship, and the left and right adjustment device for adjusting the left and right alignment of the model ship, and the second frame. The model ship length measurement part is provided to measure the length from one end of the model ship to the other end by irradiating a laser between the first frame and the second frame.Therefore, it is difficult to measure the length of the model ship by deriving accurate and easy measurement values due to a large number of curved parts. It is an object of the present invention to provide a model ship length measuring device using a laser that makes it possible to more accurately and easily measure the model ship's geometric similarity rule so that an error does not occur in estimating the solid ship performance.

A model ship length measuring apparatus using a laser according to an embodiment of the present invention for achieving the above object comprises: a first frame; A second frame disposed to be spaced apart from the first frame by a predetermined distance; A left and right adjustment device installed on the first frame and the second frame to adjust the left and right alignment of the model ship by irradiating a laser to the station marking of the model ship; And a model ship length measuring unit installed on the first frame and the second frame to measure the length of the model ship by irradiating a laser.

In addition, the model ship length measuring apparatus using a laser according to the present invention is installed so that one end of the model ship is disposed in the first frame and the other end of the model ship is disposed in the second frame. It is characterized by measuring the length.

In addition, the model ship length measuring apparatus using a laser according to the present invention is characterized in that the left and right adjustment device adjusts the left and right alignment of the model ship by adjusting the station marking of the model ship to match the irradiated laser.

In addition, the apparatus for measuring the length of a model ship using a laser according to the present invention includes: a first laser pointer for adjusting the left and right alignment of one end of the model ship by the left and right adjusting device units installed on the first frame; And a second laser pointer installed on the second frame to adjust the left and right alignment of the other end of the model ship.

In addition, the apparatus for measuring the length of a model ship using a laser according to the present invention comprises: a first port-side laser pointer for irradiating a laser to the station marking on the port side of the model ship by the first laser pointer; And a first starboard laser pointer that irradiates a laser to the starboard side of the model ship.

In addition, the apparatus for measuring the length of a model ship using a laser according to the present invention comprises: a second port-side laser pointer for irradiating a laser to the station marking on the port side of the model ship by the second laser pointer; And a second starboard laser pointer that irradiates a laser on the starboard side of the model ship.

In addition, in the model ship length measuring apparatus using a laser according to the present invention, the model ship length measuring unit is disposed at one end of the first frame or the second frame to irradiate a laser to determine the distance between the first frame and the second frame. A laser measuring device to derive a; And a target plate disposed to face the laser measuring device and reflecting the irradiated laser.

In addition, the apparatus for measuring the length of a model ship using a laser according to the present invention further comprises a support part disposed between the first frame and the second frame and supporting the model ship.

In addition, in the apparatus for measuring the length of a model ship using a laser according to the present invention, a vertical height of the support portion is configured to be higher than a vertical height of the first frame and the second frame, so that the first frame and It is characterized in that it is configured to be able to change the position of the second frame.

In addition, the apparatus for measuring the length of the model ship using a laser according to the present invention is disposed at the other ends of the first frame and the second frame, and measures the length of the model ship after irradiating the laser to improve the accuracy of the left and right alignment of the model ship. A left and right adjustment verification device for verifying; The left and right adjustment verification device unit adjusts the left and right alignment of the model ship by comparing the measured value measured by the left and right adjustment verification device and the measured value measured by the model ship length measurement unit. It characterized in that it is configured to verify the accuracy of.

In addition, the apparatus for measuring the length of a model ship using a laser according to the present invention includes: a verification laser measuring device disposed at the other end of the first frame or the second frame to irradiate the laser with the left and right adjustment verification device; And a verification target plate disposed to face the verification laser meter and reflecting the irradiated laser.

According to the model ship length measuring apparatus using a laser according to the present invention as described above, by providing a left and right adjustment device, adjusting the station marking of the model ship to match the irradiated laser so as to accurately adjust the left and right alignment of the model ship, There is an effect that can further increase the accuracy of measuring the length of a model ship using a laser.

In addition, a model ship length measuring unit that derives a length value from one end to the other end of the model ship by irradiating a laser between the first frame and the second frame is provided, thereby measuring the length of the model ship using a tape measure or a steel ruler. It has the effect of being able to derive an easier and more accurate measurement value than the line length measurement method.

In addition, the apparatus for measuring the length of a model ship using a laser according to the present invention not only measures the distance from the bow part to the stern part of the model ship, that is, the total length of the model ship, but also applies to the first frame and the second frame. By changing and measuring the reference position of the model ship to be measured, there is an effect that it is possible to measure the interval for each station or the length of a specific part of the model ship to be measured.

In addition, it is possible to measure the length of the model line more accurately and easily, which was difficult to derive accurate and easy measurement values due to the large number of curved parts, thereby satisfying the law of geometric similarity of the model line so that there is no error in estimating the performance of the solid line. It works.

In addition, the support portion is provided to have a predetermined vertical height higher than that of the first frame and the second frame, so that the first frame and the second frame can be easily moved while the model ship is disposed on the support portion. In order to be able to be executed, there is an effect of allowing the user to measure by applying various lengths of the model ship desired by the user after placing the model ship on the support.

1 is a block diagram showing the overall configuration of a model ship length measuring apparatus using a laser according to the present invention.
2 is a first state diagram showing a state of use of a model ship length measuring apparatus using a laser according to the present invention.
Figure 3 is a partial enlarged view showing a detailed configuration of the left and right adjustment device of the model ship length measuring apparatus using a laser according to the present invention.
4 is a state diagram showing a state of use of a model ship length measuring apparatus using a laser according to another embodiment of the present invention.
5 is a block diagram showing a configuration including a support part of a model ship length measuring apparatus using a laser according to the present invention.
6 is a second state diagram showing a state of use of a model ship length measuring apparatus using a laser according to the present invention.
7 is a cross-sectional view showing a state of use of a model ship length measuring apparatus using a laser according to the present invention.
8 is a block diagram showing the configuration of the left and right adjustment verification device of the model ship length measuring apparatus using a laser according to the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. First of all, it should be noted that the same components or parts in the drawings denote the same reference numerals as much as possible. In describing the present invention, detailed descriptions of related known functions or configurations are omitted so as not to obscure the subject matter of the present invention.

1 is a block diagram showing the overall configuration of a model ship length measuring device using a laser according to the present invention, Figure 2 is a first state diagram showing a state of use of the model ship length measuring device using a laser according to the present invention.

The model ship length measuring apparatus 1 using a laser according to the present invention includes a first frame 100, a second frame 200, a left and right adjustment device 300, and a model ship length as shown in FIGS. 1 and 2 It may include a measurement unit 400, a support unit 500, and a left and right adjustment verification device 600.

The first frame 100 is provided so that one end of the model ship 10 is disposed.

Specifically, the first frame 100 is a longitudinal tube disposed to be spaced apart from the second frame 200 by a predetermined distance, and when measuring the length of the model ship 10, one end of the model ship 10 is placed. It can be provided to be able to.

Therefore, it is more preferable that the width of the first frame 100 is similar to the width of the model line 10 or is configured to be long.

In addition, the first frame 100 may be configured such that one end of the model ship 10, that is, a bow portion or a stern portion is disposed.

The second frame 200 is disposed to be spaced apart from the first frame 100 by a predetermined interval, and is provided so that the other end of the model ship 10 is disposed.

Specifically, the second frame 200 is a longitudinal tube disposed to be spaced apart from the first frame 100 by a predetermined distance, and when the length of the model ship 10 is measured, the other end of the model ship 10 is placed. It can be provided to be able to.

Therefore, it is more preferable that the width of the second frame 200 is similar to the width of the model line 10 or is configured to be long.

In addition, the second frame 200 may be configured to be disposed at the other end of the model ship 10, that is, a stern part or a bow part.

In addition, the second frame 200 may be formed of the same material, shape, and size as the first frame 100.

Therefore, one end of the model ship 10 is disposed in the first frame 100, and the other end of the model ship 10 is disposed in the second frame 200, The length from one end to the other end, that is, the total length of the model ship 10 can be measured.

3 is a partial enlarged view showing a detailed configuration of the left and right adjustment device of the apparatus for measuring the length of a model ship using a laser according to the present invention.

The left and right adjustment device 300 according to the present invention is installed on the first frame 100 and the second frame 200 as shown in FIG. 3, and is used for station marking of the model ship 10. ) It is provided to adjust the left and right alignment of the model ship 10 by irradiating the laser 20 to (11).

In addition, the left and right adjustment device 300 adjusts the station marking 11 of the model ship 10 to match the irradiated laser 20 so that the left and right alignment of the model ship 10 can be adjusted.

Specifically, the left and right adjustment device 300 is the first frame 100 and the second frame 200 to the upper surface of the model line 10 to be measured, the front end of the model line 10 downward. A device provided to accurately align the model ship 10 with the first frame 100 and the second frame 200 without twisting the model ship 10 in a state of being turned upside down to face, and the outer surface of the model ship 10 It is provided to adjust the left and right alignment of the model ship 10 so that the station marking 11 and the laser 20 match by irradiating the laser 20 to the station marking 11 marked by machining.

At this time. If the irradiated laser 20 and the station marking 11 do not match, the left and right alignment of the model ship 10 is not accurately adjusted. In this case, the model ship length measurement unit 400 If the length of (10) is measured, the exact length value cannot be derived.

Therefore, when the irradiated laser 20 does not coincide with the station marking 11 as described above, the arrangement of the model ship 10 is adjusted so that the laser 20 and the station marking 11 You can sort them to match.

Accordingly, the left and right adjustment device 300 according to the present invention accurately adjusts the left and right alignment of the model ship 10 by adjusting the station marking 11 of the model ship 10 and the irradiated laser 20 to match. By doing so, it is possible to further increase the accuracy of measuring the length of the model ship 10 using the model ship length measuring unit 400.

Accordingly, the left and right adjustment device 300 may include a first laser pointer 310 and a second laser pointer 320.

The first laser pointer 310 is installed on the first frame 100 and is provided to adjust the left and right alignment of one end of the model ship 10.

Specifically, the first laser pointer 310 is provided on the left and right ends of the first frame 100 and marked on one end of the model ship 10 disposed on the first frame 100. It may be provided to irradiate the laser 20 in the direction of the station marking 11.

In addition, as the first laser pointer 310, a known laser pointer capable of irradiating the laser 20 may be used.

In addition, the first laser pointer 310 includes a first porthole laser pointer 311 disposed on the left side of the first frame 100 and a first starboard laser pointer 312 disposed on the right side of the first frame 100. ) Can be included.

The first port laser pointer 311 may be provided at the left end of the first frame 100 and may be provided to irradiate the laser 20 to the station marking 11 at one end of the model ship 10.

The first starboard laser pointer 312 may be provided at the right end of the first frame 100 to irradiate the laser 20 to the starboard station marking 11 at one end of the model ship 10.

The second laser pointer 320 is installed on the second frame 200 and is provided to adjust the left and right alignment of the other end of the model ship 10.

Specifically, the second laser pointer 320 is provided on the left and right ends of the second frame 200 and marked on the other end of the model ship 10 disposed on the second frame 200. It may be provided to irradiate the laser 20 in the direction of the station marking 11.

In addition, as the second laser pointer 320, a known laser pointer capable of irradiating the laser 20 may be used.

In addition, the second laser pointer 320 includes a second porthole laser pointer 321 disposed on the left side of the second frame 200 and a second starboard laser pointer 322 disposed on the right side of the second frame 200. ) Can be included.

The second port-side laser pointer 321 may be provided at the left end of the second frame 200 and may be provided to irradiate the laser 20 onto the station marking 11 at the other end of the model ship 10.

The second starboard laser pointer 322 may be provided at the right end of the second frame 200 to irradiate the laser 20 onto the starboard station marking 11 at the other end of the model ship 10.

Accordingly, the left and right adjustment device 300 according to the present invention includes the first port-side laser pointer on the left side of the bow part, the right side of the bow part of the model ship 10, the left side of the stern part and the right side of the stern part of the model ship 10, respectively. (311), by including the first starboard laser pointer 312, the second portrayal laser pointer 321 and the second starboard laser pointer 322, the adjustment of the left and right alignment of the model ship 10 Let this be done with elaboration and accuracy.

Accordingly, the left and right adjustment device 300 enables the adjustment of the left and right alignment of the model line 10 as described above, so that the model line 10 measured by the model line length measurement unit 400 is performed. ) You can make it possible to accurately measure the length value.

The model ship length measuring unit 400 is installed on the first frame 100 and the second frame 200 and measures the length from one end to the other end of the model ship 10 by irradiating the laser 20 It is equipped to do.

Specifically, the model ship length measurement unit 400 applies a laser measuring device that measures the distance of a specific area or the length of a specific material by irradiating the laser 20 to the first frame 100 and the second frame ( 200) is provided to measure the distance between, that is, the distance from one end of the model ship 10 to the other end.

In addition, the model ship length measuring unit 400 is measured after the left and right alignment of the model ship 10 is accurately adjusted by the action of the left and right adjustment device 300, and the model ship length measuring unit 400 The measured length value of the model ship 10 makes it possible to derive a significantly more accurate length value than a length measurement value using a tape measure or a steel ruler used in the prior art.

Accordingly, the model line length measuring unit 400 may include a laser measuring device 410 and a target plate 420.

The laser measuring device 410 is disposed at one end of the first frame 100 or the second frame 200 to irradiate the laser 20 between the first frame 100 and the second frame 200. It is provided to derive the distance.

Specifically, the laser measuring device 410 is provided at one end of one frame of the first frame 100 or the second frame 200, and a target plate 420 provided at one end of a neighboring frame The laser 20 is irradiated toward and the irradiated laser 20 senses the incident laser 20 reflected from the target plate 420 and returns until the laser 20 is irradiated and then incident. It is provided to measure the distance between the first frame 100 and the second frame 200, that is, the distance from one end to the other end of the model ship 10 using the time of.

In addition, as the laser measuring device 410, a known one capable of measuring a distance or length by irradiating the laser 20 may be used.

The target plate 420 is disposed to face the laser measuring device 410 and is provided to reflect the irradiated laser 20.

Therefore, the target plate 420 is installed in the second frame 200 when the laser measuring device 410 is installed in the first frame 100, and the laser measuring device 410 is installed in the second frame When installed in 200, it is provided to be installed in the first frame 100.

In addition, the target plate 420 is installed in the same direction as the laser measuring device 410 so that the laser irradiated by the laser measuring device 410 is reflected and incident on the target plate 420.

In addition, the target plate 420 may be applied without limitation as long as it is a reflective plate capable of reflecting the laser 20 irradiated by the laser measuring device 410.

The apparatus 1 for measuring the length of a model ship using a laser according to the present invention is not shown, but a driving unit (not shown) capable of moving the first frame 100 and the second frame 200 in the left and right directions or in the front and rear directions It may further include.

The driving unit (not shown) is provided at the bottom of the first frame 100 and the second frame 200 to move the first frame 100 and the second frame 200 in a left-right or front-rear direction. It may be provided to be able to move.

Specifically, the driving unit (not shown) is provided to move the first frame 100 and the second frame 200 having a relatively large load when adjusting the left and right alignment of the model ship 10 As a means, when aligning the model ship 10 by matching the laser 20 irradiated by the left and right adjustment device 300 with the station marking 11 of the model ship 10, the first frame 100 And by allowing the second frame 200 to move left and right or back and forth, the model ship 10 can be easily adjusted.

In addition, the driving unit (not shown) allows the model ship 10 to be safely seated when placing the model ship 10 to be measured length on the first frame 100 and the second frame 200. It may be provided to move the first frame 100 or the second frame 200 in the front-rear direction.

Therefore, although the driving unit (not shown) is not shown, the first frame 100 and the second frame 200 are rotated left and right at the bottom of the first frame 100 and the second frame 200 The first frame 100 and the second frame 200 can be moved in the front-rear direction so that the distance between the first frame 100 and the second frame 200 can be adjusted.

In addition, the driving unit (not shown) may be applied without limitation as long as it is a known driving means capable of moving the object disposed on the upper end to the left or right or front and rear.

5 is a configuration diagram showing a configuration including a support part of a model ship length measuring apparatus using a laser according to the present invention, and FIG. 6 is a second state diagram showing a state of use of a model ship length measuring apparatus using a laser according to the present invention And Figure 7 is a cross-sectional view showing a state of use of the model line length measuring apparatus using a laser according to the present invention.

The support part 500 according to the present invention is disposed in a plurality between the first frame 100 and the second frame 200 as shown in FIGS. 5 to 7 and supports the model ship 10 It is equipped to do.

In addition, in the support part 500, the vertical height of the support part 500 is configured to be higher than the vertical height of the first frame 100 and the second frame 200, so that the model ship 10 is disposed. In the state, the first frame 100 and the second frame 200 may be configured to be variable in position.

Specifically, the support part 500 is provided to support the model ship 10 among the path measurement devices of the model ship 10, and after placing the model ship 10 on the upper part of the support part 500 The first frame 100 and the second frame 200 may be placed at both ends of the model ship 10.

Accordingly, it is preferable that at least one support part 500 is disposed between the first frame 100 and the second frame 200.

In addition, in the support part 500, the vertical height of the support part 500 is higher than the vertical height of the first frame 100 and the second frame 200, and the model ship placed on the support part 500 ( 10) is arranged to be higher than the first frame 100 and the second frame 200 at a predetermined interval.

Therefore, after placing the model line on the support part 500, the user can easily change the positions of the first frame 100 and the second frame 200 to measure the length of the model line 10, that is, the model There is an effect that the length measuring device 1 can be applied and used in various ways, such as the total length of the line 10 or the length from the center to the end of the model ship.

In addition, the support part 500 may be configured in a polygonal block shape as shown, but the shape of the support part 500 is not limited thereto, and other various other types capable of supporting and supporting the model line 10 It can be applied in shape.

In addition, the support part 500 may be preferably configured to support the model ship 10 in four portions of one left or right side of the model ship 10 or the other left and right as shown, but the present invention According to the support part 500 according to the change in the shape of the support part 500 to be applied in a variety of numbers or arrangements.

8 is a block diagram showing the configuration of the left and right adjustment verification device of the model ship length measuring apparatus using a laser according to the present invention.

The left and right adjustment verification device 600 according to the present invention is disposed at the other ends of the first frame 100 and the second frame 200 as shown in FIG. 8, and after irradiating the laser 20, the It is provided to verify the accuracy of the left and right alignment adjustment of the model ship 10 by measuring the length of the model ship 10.

In addition, the left and right adjustment verification unit 600 compares the measurement value measured by the left and right adjustment verification unit 600 with the measurement value measured by the model ship length measurement unit 400, the model ship 10 It can be configured to verify the correctness of the left and right alignment adjustments.

Specifically, the left and right adjustment verification unit 600 compares the length value of the model ship at one end of the model ship 10 and the length value of the other end of the model ship measured by the model ship length measurement unit 400 As a verification device provided to verify the accuracy of the left and right alignment adjustment of the model ship 10, it is installed at the other end of the model ship 10 and provided to measure the length value of the other end of the model ship 10. I can.

Accordingly, the left and right adjustment verification device 600 measures the length value of the other end of the model ship 10, and the measured length value is the length value of the one end measured by the model ship length measuring part 400 By comparing and checking whether they match or do not match, it is verified whether the left-right alignment of the model ship 10 has been accurately adjusted.

Thus, the left and right adjustment verification device 600, if the measured value is consistent with the measured value measured by the model ship length measurement unit 400, the left and right adjustment of the model ship 10 is correctly installed and thus the model This suggests that the length value of the model line 10 measured by the line length measuring unit 400 is correct.

In addition, the left and right adjustment device 300, when the measured value does not match the measured value measured by the model ship length measurement unit 400, the left and right adjustment of the model ship 10 was not accurately made, thus , So that the left and right alignment of the model ship 10 can be adjusted again.

Accordingly, the left and right adjustment verification device 600 is disposed at the other end of the first frame 100 or the second frame 200 to irradiate a laser verification laser measuring device 610 and the verification laser measuring device 610 It may consist of a verification target plate 620 that is disposed to face and reflects the irradiated laser 20.

Hereinafter, an apparatus for measuring a length of a model ship using a laser according to another embodiment of the present invention will be described.

4 is a state diagram showing a state of use of a model ship length measuring apparatus using a laser according to another embodiment of the present invention.

The model ship length measuring apparatus 1 using a laser according to another embodiment of the present invention is the model ship to be measured on the first frame 100 and the second frame 200 as shown in FIG. 4. Change the reference position in (10) so that it can be measured.

Accordingly, the apparatus 1 for measuring the length of a model ship using a laser according to another embodiment of the present invention can measure the distance of each station of the model ship 10 or the length of a specific part of the model ship 10 to be measured. To be able to.

According to the model ship length measuring apparatus using a laser according to the present invention as described above, by providing a left and right adjustment device, adjusting the station marking of the model ship to match the irradiated laser so as to accurately adjust the left and right alignment of the model ship, It is possible to further increase the accuracy of measuring the length of model ships using lasers.

In addition, a model ship length measuring unit that derives a length value from one end to the other end of the model ship by irradiating a laser from the first frame to the second frame is provided, so that the length of the model ship is measured using a tape measure or a steel ruler. It makes it easier and more accurate than the line length measurement method to derive the measurement value.

In addition, the apparatus for measuring the length of a model ship using a laser according to the present invention not only measures the distance from the bow part to the stern part of the model ship, that is, the total length of the model ship, but also applies to the first frame and the second frame. By changing and measuring the reference position of the model ship to be measured, it is possible to measure the distance for each station or the length of a specific part of the model ship to be measured.

In addition, since there are many curved parts, it is possible to derive accurate and easy measurement values so that I can measure the length of the model line, which was difficult, more accurately and easily, thereby satisfying the law of geometric similarity of the model line so that no error occurs in estimating the performance of the solid line. .

In addition, the support portion is provided to have a predetermined vertical height higher than that of the first frame and the second frame, so that the first frame and the second frame can be easily moved while the model ship is disposed on the support portion. In order to be able to be executed, after placing the model ship on the support part, the length of the model ship desired by the user can be variously applied and measured.

The terms and words used in the present specification and claims described above should not be construed as being limited to their usual or dictionary meanings, and the present inventors appropriate the concept of terms in order to describe their own invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention on the basis of the principle that it can be defined.

Accordingly, the configurations shown in the drawings and embodiments described in the present specification are only one of the most preferred embodiments of the present invention, and do not represent all the technical ideas of the present invention, and thus they can be replaced at the time of application. It is to be understood that there may be a variety of equivalents and variations that may exist.

1: Model ship length measuring device using laser
10: model ship 11: station marking
20: laser 100: first frame
200: second frame 300: left and right adjustment device
310: first laser pointer 311: first port laser pointer
312: first starboard laser pointer 320: second laser pointer
321: second port side laser pointer 322: second star side laser pointer
400: model line length measuring unit 410: laser measuring device
420: target plate 500: support
600: left and right adjustment verification device 610: verification laser measuring device
620: verification target plate

Claims (11)

A first frame;
A second frame disposed to be spaced apart from the first frame by a predetermined distance;
A left and right adjustment device installed on the first frame and the second frame to adjust the left and right alignment of the model ship by irradiating a laser to the station marking of the model ship; And
Includes; a model ship length measuring unit installed on the first frame and the second frame to measure the length of the model ship by irradiating a laser,
The left and right adjustment device unit,
A first laser pointer installed on the first frame to adjust left and right alignment of one end of the model ship; And
Includes; a second laser pointer installed on the second frame to adjust the left and right alignment of the other end of the model ship,
The first laser pointer,
A first port side laser pointer for irradiating a laser to the station marking on the port side of the model ship; And
A first starboard laser pointer for irradiating a laser on the starboard side of the model ship;
Model ship length measuring device using a laser, characterized in that it comprises a.
The method of claim 1,
The length measurement of the model ship using a laser, characterized in that the length from one end of the model ship to the other end is measured by installing one end of the model ship in the first frame and the other end of the model ship in the second frame Device.
The method of claim 1,
The left and right adjustment device unit,
The model ship length measuring apparatus using a laser, characterized in that adjusting the left and right alignment of the model ship by adjusting the station marking of the model ship to match the irradiated laser.
delete delete The method of claim 1,
The second laser pointer,
A second port side laser pointer for irradiating a laser to the station marking on the port side of the model ship; And
A second starboard laser pointer for irradiating a laser on the starboard side of the model ship;
Model ship length measuring device using a laser, characterized in that it comprises a.
The method of claim 1,
The model line length measuring unit,
A laser measuring device disposed at one end of the first frame or the second frame to derive a distance between the first frame and the second frame by irradiating a laser; And
A target plate disposed to face the laser measuring device and reflecting the irradiated laser;
Model ship length measuring device using a laser, characterized in that it comprises a.
The method of claim 1,
A plurality of support portions disposed between the first frame and the second frame and supporting the model ship;
Model ship length measuring device using a laser, characterized in that it further comprises.
The method of claim 8,
The support part,
The laser, characterized in that the vertical height is configured to be higher than the vertical height of the first frame and the second frame so that the position of the first frame and the second frame can be variable in a state in which the model line is arranged. Model ship length measurement device used.
The method of claim 7,
The first frame and the second frame are disposed at the other side end, and after irradiating a laser, the length of the model ship is measured to verify the accuracy of the left and right alignment adjustment of the model ship; further comprising, a,
The left and right adjustment verification device unit,
The model ship length measurement using a laser, characterized in that configured to verify the accuracy of the left and right alignment adjustment of the model ship by comparing the measured value measured by the left and right adjustment verification device unit with the measured value measured by the model ship length measuring unit. Device.
The method of claim 10,
The left and right adjustment verification device unit,
A verification laser measuring device disposed at the other end of the first frame or the second frame to irradiate a laser; And
A verification target plate disposed to face the verification laser meter and reflecting the irradiated laser;
Model ship length measuring device using a laser, characterized in that it comprises a.

Images