KR20220046390A - Manufacturing and installation method of position movable rudder separation plate - Google Patents

Abstract

The present invention relates to a method for manufacturing and installing a position-moving stern rudder separation type plate. The upper surface of a stern rudder provided at a lower part of a model ship in a large cavitation tunnel is made of a detachable plate. In addition, the upper surface of the stern rudder is manufactured so as to be replaceable in order to move a position of a rudder rotating shaft. Accordingly, it is possible to grasp characteristics of cavitation generation according to movement of a rudder position and to understand a noise according to occurrence of cavitation. The method for manufacturing and installing the position-moving stern rudder separation type plate of the present invention comprises: an incision step; a cut and fabrication step; a perforation step; a first fixation and installation step; and a second fixation and installation step.

Description

Manufacture and installation method of repositionable stern rudder separation plate material

The present invention relates to a method for manufacturing and installing a position-moving stern rudder separation plate material, and more specifically, to a separate plate material for the upper surface of a ship rudder provided under a model ship in a large cavitation tunnel, but to move the position of the rudder rotation shaft It relates to a method of manufacturing and installing a relocatable stern rudder separation type plate material, which enables to understand cavitation generation characteristics according to rudder position movement and noise according to cavitation generation by manufacturing to be replaceable.

In general, in order to intensively perform the rudder performance test of a ship, it is necessary to observe the cavitation of the rudder itself and measure the noise generated from the rudder. In the case of noise, noise due to propeller cavitation is also generated at the same time, so a noise sensor should be installed near the rudder.

When observing cavitation generated from the rudder through the observation window of the large cavitation tunnel test section, only the cavitation area can be known. However, at a high rudder angle of about 15 degrees, it may be difficult to compare the cavitation generation characteristics only by the generation area regardless of the type of rudder.

At this time, if the thickness of cavitation occurrence can be compared, the cavitation occurrence characteristics for each rudder can be identified. In addition, it is necessary to investigate the cavitation generation characteristics according to the position movement of the rudder, and additional hole processing is required according to the position movement. The diameter of the rudder stock is about 35mm, and the position movement is about ±10mm to the front and back, left and right, so it is impossible to process holes for each location to install the rudder stock on the model ship. The position of the noise sensor must also be changed according to the movement of the position.

Accordingly, in order to solve the problems raised above, a technology for manufacturing the upper part of the rudder with a detachable plate has been developed.

Korean Patent No. 10-1157371

The problem to be solved by the present invention is to manufacture the upper surface of a ship rudder provided at the bottom of a model ship in a large cavitation tunnel with a detachable plate, but replace it for the position of the rudder rotating shaft, thereby generating cavitation according to the position of the rudder An object of the present invention is to provide a method for manufacturing and installing a relocatable stern rudder detachable plate that enables the identification of characteristics and noise caused by cavitation.

The method for manufacturing and installing a relocatable stern rudder separation type plate material according to an embodiment of the present invention includes the steps of cutting the upper regions of the first and second rudders installed in a model ship installed in a large cavitation tunnel to a certain area in a predetermined area; The steps of cutting and manufacturing the first and second separable plate materials to correspond to the area, and the rotation axis of the first and second rudder ( stock) drilling a through hole for passing through, and drilling one or more fixing bolt coupling holes for bolting along the edges of each of the first and second separable plate materials and a hole for installing a noise sensor, the first and fixing a noise sensor and a camera for cavitation photography on the upper side of the second separable plate, respectively, and fixing and installing the first and second separable plate to the model ship through one or more fixing bolts. can do.

In one embodiment, the step of cutting and manufacturing the first and second separable plates to correspond to the area of the incised region is a second separable type in which the camera for cavitation photography is located on the upper side of the first and second separable plates. It may be characterized in that it comprises the step of manufacturing the plate material of an acrylic material.

In one embodiment, a through hole is drilled through which the rotation shaft of the first and second rudder stock passes in an area moved by a predetermined distance from the center of each of the cut first and second separable plate materials, The step of drilling one or more fixing bolt coupling holes for bolt coupling and a hole for installing a noise sensor along the edges of each of the first and second separable plates is from the center of each of the cut first and second separable plates. The method may include drilling the through hole in an area moved by a distance of 10 mm, and moving the position of the hole for installing the noise sensor by a distance of 10 mm to correspond to the movement of the through hole.

In one embodiment, the step of fixing the noise sensor and the camera for cavitation photographing, respectively, on the upper side of the first and second separable plate material is at least on the jig for installing the camera, the bolt coupling hole line consisting of at least three or more bolt coupling holes is at least Step of perforating to form three or more laterals, on the second detachable plate in which the camera for cavitation photography is located on the upper side of the first and second separable plates, the jig for installing the camera in which the bolt coupling hole line is perforated is positioned and fixing the camera installation jig to the second detachable plate using three or more fixing bolts bolted to the one or more fixing bolt coupling holes.

In one embodiment, each of the bolt coupling holes drilled on the jig for installing the camera has an elliptical shape having a size of at least 10 mm or more, and both end portions of the oval shape are positioned to face both sides of the jig for installing the camera. can be characterized.

In an embodiment, the camera for cavitation photography may be characterized in that it is hinged on a jig for installing the camera.

According to the present invention, the upper surface of the ship rudder provided at the bottom of the model ship in the large cavitation tunnel is made of a detachable plate, but by making it replaceable for the position movement of the rudder rotation shaft, the characteristics of cavitation occurring according to the movement of the rudder position and It has the advantage of enabling detection of noise caused by cavitation.

1 is a view showing a method for manufacturing and installing a position-moving stern rudder separation type plate material in a sequential order according to an embodiment of the present invention.
2 is a view showing a model ship installed in a large cavitation tunnel.
FIG. 3 is a view showing a state in which the first and second separable plates 100 and 200 shown in FIG. 2 are viewed from the inside of the model ship.
FIG. 4 is a view showing the first detachable plate 100 shown in FIG. 2 .
FIG. 5 is a view showing the second detachable plate 200 shown in FIG. 2 .

Hereinafter, preferred examples are presented to help the understanding of the present invention. However, the following examples are only provided for easier understanding of the present invention, and the content of the present invention is not limited by the examples.

1 is a view showing a method for manufacturing and installing a position-moving stern rudder separation type plate material in a sequential order according to an embodiment of the present invention.

Referring to FIG. 1 , in the method for manufacturing and installing a location-moving stern rudder separation plate material according to an embodiment of the present invention, first, the upper regions of the first and second rudder installed in a model ship installed in a large cavitation tunnel are cut into a predetermined area, and (S101), it begins with the step (S102) of cutting and manufacturing the first and second separable plates to correspond to the area of the cut-out area.

In this step, the upper portions of the first and second rudder installed on the lower part of the model ship installed on the upper part of the large cavitation tunnel are cut in a predetermined area so that the first and second separable plate materials 100 and 200, which will be described later, can be detachably coupled to each other. is a process to This will be described in more detail with reference to FIGS. 2 to 6 .

FIG. 2 is a view showing a model ship installed in a large cavitation tunnel, and FIG. 3 is a view showing a state in which the first and second separable plates 100 and 200 shown in FIG. 2 are viewed from inside the model ship, FIG. 4 is a view showing the first separable plate 100 shown in FIG. 2 , and FIG. 5 is a view showing the second separable plate 200 shown in FIG. 2 .

2 to 5 together, a model ship is installed in the large cavitation tunnel to test the rudder performance of the model ship. do.

At this time, as the first and second rudders are respectively connected to the motor in the model ship, the direction is changed while rotating by the rotational power of the motor. In this process, in order to intensively perform the rudder performance test, it is necessary to observe the cavitation of the rudder itself and measure the noise generated from the rudder. After replacing and cutting the upper part of the second rudder, it is replaced with the second detachable plate 200 .

A noise sensor for measuring noise is installed on the upper side of the first separable plate 100 , and a cavitation photographing camera for observing the thickness of the cavitation of the rudder is installed on the upper part of the second separable plate 200 . In this case, in the case of the second separable plate 100 , a transparent acrylic material may be applied to observe the thickness of the cavitation.

Next, after the cutting of the first and second separable plates 100 and 200 is completed, the rotation shafts (stock) of the first and second rudder are located in the center of each of the cut first and second separable plates 100 and 200 , respectively. A through hole is drilled to pass through, and one or more fixing bolt coupling holes are drilled along the edges of each of the first and second separable plate members 100 and 200 for bolt coupling with the model ship (S103).

At this time, the through-hole is drilled at a position moved a certain distance (eg, 10 mm) from the center of the first and second separable plates 100 and 200 , and in the first separable plate 100 , there are two Holes are drilled in pairs at a position moved by 10mm while maintaining a constant distance from the already drilled through-holes.

In particular, at this time, since the lower part of the model ship is linear rather than flat, the hole for installing the noise sensor is drilled in a state inclined at a certain inclination so that the lower surface of the model ship and the noise sensor are perpendicular to each other.

Next, a noise sensor and a camera for cavitation photography are fixedly installed on the upper side of the first and second separable plates 100 and 200, respectively, and the first and second separable plates 100 and 200 using one or more fixing bolts. is fixed to the model ship (S104).

Referring to FIG. 5 , it can be seen that one or more fixing bolt coupling holes are formed along the edge of the first separable plate 200. At this time, the rotation axis of the first rudder passes through a position moved a certain distance (about 10 mm) from the center. A through hole is formed for

In addition, it can be seen that a pair of holes for installing the noise sensor are formed on both sides of the through hole, and each hole maintains a certain distance from the through hole, but like the through hole, the position is moved by 10 mm from the center. is perforated with Two noise sensors can be fitted into the corresponding hole.

6, one or more fixing bolt coupling holes are formed along the edge of the second detachable plate 200, and it can be seen that the camera installation jig is fixed by the fixing bolt on the upper side. At least 3 in the camera installation jig It can be seen that the bolted hole line composed of two or more bolted holes is formed in three or more rows.

At this time, in the case of each bolt coupling hole, it forms an ellipse, and has a shape elongated based on the width direction of the jig for installing a camera. In this case, the length of the bolt coupling hole may be about 10 mm.

Therefore, if it is necessary to investigate the characteristics of cavitation according to the movement of the rudder position, the camera installation jig may be moved in the left and right direction after slightly loosening the fixing bolts fixed to the camera installation jig, and in some cases, the camera installation jig By changing the lateral position of the provided bolt coupling hole line, the position of the camera installation jig can be moved in the front-rear direction. In this case, the fixing bolt may be a flange fixing bolt.

On the other hand, the camera for cavitation photography is hinged to the camera installation jig, so that the shooting angle can be adjusted, and two camera installation jigs are installed on the second detachable plate 200 to simultaneously photograph the outside and the inside of the rudder can be

In particular, although not shown in FIG. 6 , in the case of a through hole for the rotation axis of the second rudder to pass through, as shown in FIG. 5 , the hole may be drilled in an area moved by a distance of 10 mm from the center. It can be fixed by a fixing bolt in a position-moved state.

Although the above has been described with reference to the preferred embodiment of the present invention, those skilled in the art will be able to variously modify and change the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. You will understand that you can.

100: first detachable plate
200: second detachable plate

Claims (6)

cutting an upper region of the first rudder and the second rudder installed in a model ship installed in a large cavitation tunnel in a predetermined area;
Cutting and manufacturing the first and second separable plates to correspond to the area of the incised region;
A through hole for passing the rotation shafts of the first and second rudder through a region moved by a predetermined distance from the center of each of the cut first and second separable plate members is drilled, and the first and second Perforating one or more fixing bolt coupling holes for bolt coupling and a hole for installing a noise sensor along the edges of each of the detachable plate materials;
Fixed installation of a noise sensor and a camera for cavitation photographing, respectively, on the upper side of the first and second separable plates; and
Fixing and installing the first and second separable plate members to the model ship through one or more fixing bolts; Repositionable stern rudder detachable plate manufacturing and installation method comprising a.
According to claim 1,
The step of cutting and manufacturing the first and second separable plates to correspond to the area of the incised region,
Among the first and second separable plates, manufacturing a second separable plate in which the camera for cavitation photography is located on the upper side is made of an acrylic material; a method of manufacturing and installing a relocatable stern rudder separable plate, comprising: a.
According to claim 1,
A through-hole for passing the stock of the first and second rudders through the cut-out first and second separable plate members is drilled in an area moved by a predetermined distance from the center of each, and the first and second rudder 2 The step of drilling one or more fixing bolt coupling holes for bolting and a hole for installing the noise sensor along the edge of each of the separable plate materials,
The through hole is drilled in an area moved by a distance of 10 mm from the center of each of the cut first and second separable plates, and the position of the hole for installing the noise sensor is also 10 mm away to correspond to the movement of the through hole. A method of manufacturing and installing a position-moving stern rudder detachable plate material, comprising: moving and perforating the hole.
According to claim 1,
The steps of fixedly installing a noise sensor and a camera for cavitation shooting, respectively, on the upper side of the first and second separable plates,
A step of perforating on the jig for installing the camera, so that the bolt coupling hole line consisting of at least 3 or more bolt coupling holes to form at least 3 or more horizontal;
locating the camera installation jig in which the bolt coupling hole line is perforated on a second separable plate in which the camera for cavitation photography is located on an upper side of the first and second separable plates; and
Using three or more fixing bolts bolted to the one or more fixing bolt coupling holes to fix and install the camera installation jig to the second detachable plate; and how to install it.
5. The method of claim 4,
Each of the bolt coupling holes drilled on the jig for installing the camera,
Doedoe having an elliptical shape having a size of at least 10 mm or more, both end portions of the elliptical shape are positioned to face both sides of the jig for installing the camera, a method for manufacturing and installing a removable stern rudder plate material.
5. The method of claim 4,
The camera for cavitation photographing is characterized in that the hinge (hinge) coupled to the jig for installing the camera, the position-movable stern rudder separation type plate material manufacturing and installation method.

Images