KR102608287B1 - Apparatus for adjusting glancing angle of side light of ship - Google Patents

Abstract

The present invention relates to a side light angle adjustment device that enables measurement of the error range of the side light angle, and based on this, allows the adjustment plate to be precisely moved, thereby accurately adjusting the side light angle of the side light in the forward direction. As such, the side light angle adjustment device according to the present invention includes side lights provided on the left and right ends of the bow side of the ship, respectively; An adjustment plate placed at a distance from the front of the side light and capable of adjusting the side light angle by moving left and right; And a blind angle fluorescent recognition member disposed at a position spaced apart from the adjustment plate and having a plurality of fluorescent recognition marks spaced at equal intervals, wherein the fluorescent recognition marks are fluorescently displayed by the incident light of the ship side lamp. , In a state where the side lights and a specific fluorescent recognition mark are placed on the same line, when the specific fluorescent recognition mark on the fluorescent recognition member at the angle of the incident light becomes fluorescent due to the incident light from the side light, the side light is identified based on the location of the fluorescent recognition mark. The angle of incident light can be measured, and the angle of incident light in the direction of the ship's side light can be adjusted by checking the position of the fluorescent recognition mark that fluoresces by moving the adjustment plate.

Description

Apparatus for adjusting glancing angle of side light of ship}

The present invention relates to a ship side light angle adjustment device. More specifically, it makes it possible to measure the error range of the side light angle, and based on this, allows the adjustment plate to be moved precisely, thereby accurately adjusting the side light angle. This relates to an adjustable side light angle adjustment device.

Side lights are provided on the left and right sides of the bow side of the ship. A ship's side lights are an important indicator for maritime traffic safety, allowing the ship's direction of movement to be predicted. The International Maritime Collision Rules stipulate signals related to ship side lights, which require that they be illuminated at a certain angle from the ship's forward direction.

Referring to FIG. 1, the side lights 10 are provided on the left and right side ends of the bow side of the ship, and are mounted to illuminate a certain angle from the ship's forward direction to the ship's head and side. In this way, the side lights 10 are allowed to emit light only between the ship's forward direction and a certain angle after the ship's head. In other words, the side lights 10 must shine in the transverse direction of the ship based on the forward direction, and the side lights 10 must not shine at an angle beyond a certain angle toward the inside of the ship beyond the forward direction.

In order to prevent the side lights 10 from directing light toward the inside of the ship, an adjustable plate 20 is provided on one side of the side lights. The adjustment plate 20 is provided at a position spaced apart from the front of the side light 10 and serves to prevent the side light 10 from being radiated toward the inside of the ship. The adjustment plate 20 can be moved left and right, and the headlight angle of the side light 10 can be adjusted by moving the adjustment plate 20 left and right.

However, in order to accurately adjust the angle of light of the side light by moving the adjustment plate, the angle of light of the side light must be accurately measured. In the conventional case, not only is complex equipment required to measure the angle of incident light of a ship's side light, but there is also a problem of low precision.

Korean Patent No. 1109666 (published on March 17, 2011)

The present invention was devised to solve the above problems, and it is possible to measure the error range of the side light angle, and based on this, the adjustment plate can be moved precisely, so that the side light angle can be accurately adjusted. The purpose is to provide a side light angle adjustment device.

The side light angle adjustment device according to the present invention for achieving the above object includes side lights provided on the left and right ends of the bow side of the ship, respectively; An adjustment plate disposed at a position spaced apart from the front of the side light and capable of adjusting the beam angle of the side light in the forward direction by moving left and right; And a blind angle fluorescent recognition member disposed at a position spaced apart from the adjustment plate and having a plurality of fluorescent recognition marks spaced at equal intervals, wherein the fluorescent recognition marks are fluorescently displayed by the incident light of the ship side lamp. , In a state where the side lights and a specific fluorescent recognition mark are placed on the same line, when the specific fluorescent recognition mark on the fluorescent recognition member at the angle of the incident light becomes fluorescent due to the incident light from the side light, the side light is identified based on the location of the fluorescent recognition mark. It is characterized in that the angle of incident light can be measured, and the angle of incident light of the ship's side light can be adjusted by checking the position of the fluorescent recognition mark that fluoresces by moving the adjustment plate.

The incident light angle fluorescent recognition member is a band-shaped member, and on the band, a plurality of fluorescent recognition marks are arranged at regular intervals along the longitudinal direction of the band. The fluorescent recognition marks are marks printed with a fluorescent material and irradiated with light. When this happens, fluorescence appears.

The incident light angle fluorescent recognition member is provided on the mounting device in a selectively removable form. The oblique angle fluorescent recognition member may be provided in a form in which both ends of the oblique angle fluorescent recognition member of a certain length are fixed to a mounting device, or the oblique angle fluorescent recognition member may be seated and mounted in a fixing groove of the mounting device.

The side light angle adjustment device according to the present invention has the following effects.

In a state where a light angle fluorescent recognition member is provided at a position spaced apart from the adjustment plate and fluorescent recognition marks are provided at equal intervals on the light angle fluorescent recognition member, when the light from the ship side light is applied, the fluorescence of a specific fluorescent recognition mark appears. Through this, the side light angle can be accurately measured. In addition, as the fluorescence expression of a specific fluorescent recognition mark progresses when the adjustment plate is moved, the angle of incident light of the side lights can be precisely adjusted.

Figure 1 is a reference diagram for explaining the arrangement structure of side lights according to the prior art.
Figures 2 and 3 are configuration diagrams of a side light angle adjustment device according to an embodiment of the present invention.
Figures 4 and 5a to 5c are reference diagrams for explaining the fluorescent recognition mark that fluoresces by the side light.

The present invention presents a technology for accurately measuring the angle of incident light of a ship's side light. In addition, the present invention presents a technology that can precisely adjust the angle of light of the side light by using an adjustment plate.

Measurement of the incident light angle of the side light and adjustment of the incident light angle of the side light using the adjustment plate according to the present invention apply the principle of fluorescence expression. In detail, in a state in which a plurality of fluorescent materials are spaced apart and repeatedly placed in the range of angles that can illuminate the front of the side light, the angle of the side light is accurately measured and adjusted through the fluorescent material at the point where fluorescence is revealed when the side light emits light. We present a technology that can fine-tune the angle of light of a side light through the point where fluorescence is expressed by the movement of the plate.

Hereinafter, a side light angle adjustment device according to an embodiment of the present invention will be described with reference to the drawings.

Referring to Figures 2 and 3, the side light angle adjustment device according to an embodiment of the present invention includes a side light 110, an adjustment plate 120, and a side light angle fluorescent recognition member 130. .

The side lights 110 are provided on the left and right side ends of the bow side of the ship, respectively. The side lights 110 serve to emit light from the direction of the ship's head to a certain angle after the ship's head.

The adjustment plate 120 is provided at a position spaced a certain distance from the front of the side light 110 and can be moved left and right. The blind angle of the side light 110 can be adjusted by moving the adjustment plate 120 left and right. When the side light 110 is provided at the left end of the bow of a ship, when the adjustment plate 120 is moved to the right, the blind angle range of the side light 110 increases, and conversely, when the adjustment plate 120 is moved to the left, The blind angle range of the side lights 110 is narrowed.

In order to prevent the blind angle of the side light from being intruded toward the inside of the ship, which is opposite to the transverse direction of the ship, it is preferable that one end of the adjustment plate 120 is arranged to coincide with the forward direction of the side light 110.

Even if one end of the adjustment plate 120 is arranged to coincide with the forward direction of the side light 110, when the actual angle of the side light is measured, the angle of the side light invades the forward direction by a small angle and moves toward the inside of the ship. You can head towards it. Therefore, it is realistically difficult to manage the blind angle of the side lights to match the heading direction, and manage the blind angle of the side lights so that the angle range that violates the heading direction falls within the acceptable range. Needs to be. In other words, it is necessary to manage the beam angle of the side lights within the tolerance range, and the error tolerance range of the beam angle of the side lights can be managed at 1 to 3 degrees based on the heading direction. Of course, the error tolerance range of the side light angle can be set differently as needed.

The incident light angle fluorescent recognition member 130 is provided to manage the error tolerance range of the incident light angle of the side lights. The incident light angle fluorescent recognition member 130 is a band-shaped member, and a plurality of fluorescent recognition marks 131 are arranged at regular intervals along the longitudinal direction of the band. The fluorescent recognition mark 131 is a mark printed with a fluorescent material and becomes fluorescent when irradiated with light.

A structure in which a light angle fluorescent recognition member 130 is provided at a position spaced a certain distance away from the adjustment plate 120, and fluorescent recognition marks 131 are repeatedly arranged at a certain distance on the light angle fluorescent recognition member 130. Accordingly, each fluorescent recognition mark 131 on the incident light angle fluorescent recognition member 130 represents a specific angle point. That is, if fluorescence is expressed in the specific fluorescent recognition mark 131 on the incident light angle fluorescent recognition member 130 by the incident light of the side light 110, the incident light angle of the side light is reflected by the specific fluorescent recognition mark 131 that is fluorescently expressed. ) can be calculated from the point.

In one embodiment, when the specific fluorescent recognition mark 131 of the side light 110 and the oblique angle fluorescent recognition member 130 are placed on the same line (direction of the head), the oblique angle of the side light is determined through right triangle trigonometry. The corresponding fluorescent recognition mark 131 can be specified. For example, when the incident light angle fluorescent recognition member 130 is placed at a point 3 m away from the front of the side light 110, if the forward direction of the side light 110 is 0ㅀ, it corresponds to 0ㅀ∼3ㅀ. The distance on the fluorescent recognition member 130 at the incident light angle is about 15.7 cm. As a plurality of fluorescent recognition marks (131) are arranged at equal distances apart on a fluorescent recognition member at a distance of approximately 15.7 cm corresponding to 0ㅀ to 3ㅀ, through each fluorescent recognition mark (131) point. The blind angle of the side lights can be precisely measured within the range of 0ㅀ to 3ㅀ (see FIGS. 4 and 5A to 5C).

To explain more briefly, assuming that the fluorescent recognition marks 131 are arranged at 1cm intervals and that the 1cm interval between the fluorescent recognition marks 131 corresponds to an angle of incidence of 0.2ㅀ of the side lights, the side lights (110 If the 5th fluorescent recognition mark 131 fluoresces due to the incident light of ), the incident light angle of the side light can be considered to be 1ㅀ. In addition, if the 10th fluorescent recognition mark 131 fluoresces due to the incident light of the side light 110, the incident light angle of the side light is considered to be 2ㅀ, and the 15th fluorescent recognition mark ( 131), if fluorescence is expressed, the angle of incident light of the side lights is considered to be 3ㅀ.

As described above, the incident light angle of the ship side light can be accurately measured through the fluorescent recognition mark 131 that fluoresces on the incident light angle fluorescence recognition member 130. If the measured angle of incident light of the side light falls within the above-mentioned error tolerance range (for example, within 3ㅀ), there is no need to adjust the angle of incident light of the side light. On the other hand, if the measured angle of light of the side lights is outside the tolerance range, the angle of light of the side lights must be adjusted.

Adjustment of the side light angle is carried out by the adjustment plate 120, and is carried out with the side light angle fluorescent recognition member 130 disposed on the front of the side light 110, as in measuring the side light angle. . As the adjustment plate 120 moves left and right, the angle of the side lights increases or decreases. When the angle of the side lights increases or decreases as the adjustment plate 120 moves, the increase or decrease in the angle of the side lights is determined by the angle of the side lights. This can be confirmed through the location of the fluorescent recognition mark 131 that fluoresces on the fluorescence recognition member 130.

In other words, the position of the fluorescent recognition mark 131 that fluoresces on the incident light angle fluorescent recognition member 130 is confirmed, and the adjustment plate 120 is moved based on this to ensure that the incident angle of the ship side light falls within the error tolerance range. The error range of the side light angle can be precisely adjusted.

Meanwhile, the incident light angle fluorescent recognition member 130 is provided at a location spaced apart from the adjustment plate 120 as described above, and can be provided in a selectively detachable form. In one embodiment, the incident light angle of the ship side light is measured and adjusted as described above while the band-shaped incident light angle fluorescent recognition member 130 is fixed to a predetermined mounting device, and the incident light angle of the ship side light is measured and adjusted. Once the measurement and adjustment are completed, the light angle fluorescent recognition member 130 can be detached from the mounting device. The mounting device can be implemented in various embodiments. For example, it can be implemented by fixing both ends of the oblique angle fluorescent recognition member 130 of a certain length, or by seating and mounting the oblique angle fluorescent recognition member 130 in a fixing groove. In one embodiment, the incident light angle fluorescent recognition member 130 may be configured in the form of a tape measure to facilitate portability and installation.

110: side light 120: adjustment plate
130: Light angle fluorescence recognition member 131: Fluorescence recognition mark

Claims (5)

Side lights provided on the left and right ends of the bow side of the ship, respectively;
An adjustment plate placed at a distance from the front of the side light and capable of adjusting the side light angle by moving left and right; and
It is disposed at a position spaced apart from the adjustment plate, and has a plurality of fluorescent recognition marks spaced at equal intervals, and a light angle fluorescent recognition member in which the fluorescent recognition marks are fluorescently displayed by the incident light of the ship side light.
In a state where the side lights and a specific fluorescent recognition mark are placed on the same line, when the specific fluorescent recognition mark on the fluorescent recognition member at the angle of the light is revealed by the incident light of the side light, the incident light of the side light is based on the location of the fluorescent recognition mark. You can measure angles,
A side light angle adjustment device, characterized in that the light angle of the side light can be adjusted by checking the position of the fluorescent recognition mark that fluoresces by moving the adjustment plate.
The method of claim 1, wherein the incident light angle fluorescent recognition member is a band-shaped member, and on the band, a plurality of fluorescent recognition marks are arranged at regular intervals along the longitudinal direction of the band, and the fluorescent recognition marks are printed with a fluorescent material. A side light angle adjustment device characterized in that it fluoresces when irradiated with light as a marked mark.
The apparatus for adjusting the oblique angle of a side light according to claim 1, wherein the oblique angle fluorescent recognition member is provided on a mounting device in a selectively removable form.
The apparatus of claim 3, wherein the incident light angle fluorescent recognition member is provided in a form in which both ends of the incident light angle fluorescent recognition member of a certain length are fixed to a mounting device.
The side light angle adjustment device according to claim 3, wherein the light angle fluorescent recognition member is seated and mounted in the fixing groove of the mounting device.

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