KR20120076784A - Alignment method for center line of rudder blade between upper casting and lower casting - Google Patents

Abstract

PURPOSE: A method for aligning a shaft center between an upper casting and a lower casting of a rudder blade is provided to rapidly and accurately match the shaft center on an inner diameter part of an upper casting and a lower casting. CONSTITUTION: A method for aligning a shaft center between an upper casting and a lower casting of a rudder blade is as follows. A rudder blade(10) and upper and lower castings respectively fixed in the rudder blade are horizontally installed by multiple supporting structures(16) on a worktable. A theodolite(18) is installed in the rudder blade. Machining devices(20) for aligning a shaft center on the upper casting and the lower casting are respectively installed. Digital scales(22) are respectively installed in the machining devices toward the theodolite. The thedolite and the digital scales adjust the working position of the machining devices for a hole(12a) of the upper casting and a hole(14a) of the lower casting to the right position. The machining devices perform a machining work for the shaft center alignment of the hole of the upper casting and the hole of the lower casting.

Description

Alignment method for center line of rudder blade between upper casting and lower casting}

The present invention relates to an axial alignment method between upper casting and lower casting of a rudder blade, and more particularly, to an inner diameter portion made between upper casting and lower casting of a rudder blade for linear assembly of a rudder stock and a rudder pintle. The present invention relates to a method for enabling quick and accurate axis alignment.

In general, ships have a rudder blade which is pivotally mounted about the hull for steering. The rudder blade RUDDER BLADE is rotatably installed on the upper side of the rudder part through the rudder stock, and the rudder stock is assembled inside the rudder trunk. In addition, the lower part of the rudder blade is rotatably installed via the rudder pintle relative to the rudder horn.

In this case, the rudder stock and the rudder pintle must be assembled in a straight line with respect to the rudder blade, respectively, in order to facilitate smooth rotation of the rudder blade during steering. To this end, the rudder blade has hollow upper casting and lower casting for rotatably assembling the rudder stock and the rudder pintle, respectively.

At this time, the upper casting is formed with a rudder stock insertion hole for assembly with the rudder stock, the lower casting is formed with a rudder pintle insertion hole for assembly with the rudder pintle, each hole is a rudder stock for the rudder blade In order to assemble the rudder pintle and the rudder pintle in a straight line, axial alignment with respect to the inner diameter part should be made. For this purpose, the inner diameter machining for the so-called axial alignment is required to match the centers of the inner diameter portions of the upper casting hole and the lower casting hole.

In order to align the shaft center between the conventional upper casting and the lower casting is performed as follows. First, as shown in FIG. 1, a plurality of support structures for the rudder blade 51 and the upper casting 53 and the lower casting 55 fixed to the upper and lower portions of the rudder blade 51, respectively, on the work surface. (57) is installed horizontally.

Subsequently, the piano wire 59 is provided at a position extending from the center of the rudder stock insertion hole 53a of the upper casting 53 and the center of the rudder pintle insertion hole 55a of the lower casting 55. do. At this time, the center position of each of the holes 53a and 55a is an inner diameter of at least four or more positions of up, down, left, and right distances from the installation portion of the piano wire 59 to the inner diameter portion of each of the holes 53a and 55a. It can be found by comparing with the gauge and level gauge 61 as the divider.

Subsequently, boring equipment is installed at the center of the upper casting 53, the hole 53a, and the hole 55a of the lower casting 55 according to the standard measured by the inner diameter divider, and then the axial center alignment of the respective inner diameter portions. Internal machining will be performed.

However, in the conventional method of aligning the shaft center between the upper casting 53 and the lower casting 55 with respect to the rudder blade through the above process, the boring equipment is placed on the inner diameter of the holes 53a and 55a formed in the respective casting sites. It is almost impossible to install correctly according to the standards marked for the above, and in particular, the hole 53a of the upper casting 53 for the installation of the rudder stock after the machining of the inner diameter and the hole of the lower casting 55 for the installation of the rudder pintle. Since there is no way to confirm whether the centers of the 55a exactly coincide with each other, that is, whether or not the centers of the shafts 53a and 55a are aligned, there is a problem in that a failure after assembly cannot be excluded.

In addition, in the conventional method for axial center alignment using the piano wire 59 as described above, the occurrence of an error accompanying the re-installation of the equipment and the time loss of performing the axial center alignment again to reduce such errors are prevented. I have a problem that I can't.

Accordingly, the present invention has been made in view of the above-mentioned matters, and in order to assemble the rudder stock and the rudder pintle in a straight line with respect to the rudder blade, the upper and lower parts of the upper casting of the rudder blade and the inner diameter of the lower casting are more precise and accurate. The purpose is to provide a method for axial alignment.

The present invention for achieving the above object, the horizontal step of installing a rudder blade, the upper casting and lower casting fixed to the upper and lower portions of the rudder blade, respectively, horizontally via a plurality of support structures with respect to the work surface. ;

Installing a deodorite on top of the rudder blade;

Respectively installing machining equipment for the operation of axial alignment for the upper casting and the lower casting;

Installing digital scales respectively for the processing equipment toward the deodolites;

Adjusting the working position of the processing equipment with respect to the hole of the upper casting and the hole of the lower casting by using the deodolite and the digital scale in position; And

Performing an operation for axial alignment of the upper casting hole with the lower casting hole via the processing equipment.

In addition, the present invention is characterized in that it further comprises the step of re-checking the state of the axial center alignment of the inner diameter portion of the upper casting and the inner diameter portion of the lower casting after the axial centering operation.

The present invention in the rudder blade is pivotally installed to the stern portion for steering of the vessel, the rudder stock and the rudder pintle to the upper for assembling the upper casting and the lower casting located in the upper and lower portions of the rudder blade, respectively A method for aligning the shaft center with respect to the inner diameter of the casting and the lower casting, and is used to position the machining equipment by using the deodorite installed on the rudder blade and the digital scale installed on the equipment for the inner diameter of the upper casting and the lower casting. Simultaneous adjustments to the setting and boring operations for axial alignment of the respective inner diameters using the machining equipment can be carried out simultaneously, allowing quicker and more accurate alignment of the axis centers for the inner diameters of the upper and lower castings. .

That is, the present invention, in the work for the alignment of the existing shaft center, and the various errors accompanying the installation of the processing equipment for each inner diameter portion after the shaft center alignment between the upper casting and the lower casting using the piano wire, and correction of such errors In addition, the time required to install and dismantle the equipment can be eliminated, thereby significantly reducing the time required for the entire alignment.

1 is a view showing an axial alignment method between upper casting and lower casting of a conventional rudder blade.
2 is a view showing an axial alignment method between upper casting and lower casting of a rudder blade according to the present invention;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying exemplary drawings.

As shown in FIG. 2, the upper casting 12 and the lower portion of the rudder blade 10 which are fixed for assembly with the rudder stock at the upper portion of the rudder blade 10 including the rudder blade 10 are illustrated. The lower casting 14 fixed for assembly with the rudder pintle is installed in a horizontal state on the upper part of the work table using a plurality of support structures 16, respectively. At this time, the installation process of the support structure 16 for the rudder blade 10, the upper casting 12 and the lower casting 14 is adjusted by using a level gauge and a hydraulic jack to adjust the horizontal state of each part Is performed.

Subsequently, a processing equipment 20 is installed on top of the rudder blade 10 to perform a boring operation for axial alignment of the upper casting 12 and the lower casting 14. Install each one.

Subsequently, a digital scale 22 is installed for the processing equipment 20 toward the deodite 18.

Subsequently, the deodorization 18 and the digital scale 22 of the processing equipment 20 for the hole 12a of the upper casting 12 and the hole 14a of the lower casting 14 are used. Adjust the working positions to their respective positions. That is, the respective machining equipment at the position of the axial center alignment for the holes 12a of the upper casting 12 and the holes 14a of the lower casting 14 to be disposed in a straight line with respect to the rudder blade 10, respectively. Position (20) and perform a setting operation to adjust the initial position of the processing equipment 20a provided in the processing equipment 20 to the correct position at that position.

Subsequently, the axial center of the hole 12a for the assembly of the rudder stock in the upper casting 12 and the hole 14a for the assembly of the rudder pintle in the lower casting 14 using the processing equipment 20 are used. By carrying out the boring work for these, the centers of the inner diameters of these holes 12a and 14a are matched. That is, the inner core portions of the upper casting 12 and the hole 14a of the lower casting 14 are respectively machined using tapered boring machines to coincide with each other.

Then, when the work for the shaft center alignment is completed, the rudder blade by re-inspecting the state of the shaft center alignment of the inner diameter portion with respect to the hole 12a of the upper casting 12 and the hole 14a of the lower casting 14. The operation of matching the inner diameter center between the upper casting 12 and the lower casting 14 for 10 is finished. At this time, the process of re-inspecting the state of the axial center alignment with respect to the respective inner diameter portion of the upper casting 12 and the lower casting 14 is performed by the holes 12a and the lower casting 14 of the upper casting 12. Filler gauges are provided at the centers of the inner diameter portions of the holes 14a, and then the state of shaft center coincidence is read through the level gauges.

As described above, the present invention relates to the installation work of the processing equipment 20 for the inner diameter portion of the upper casting 12 and the lower casting 14 made using the deodorite 18 and the digital scale 22. Since the boring operation for axial center alignment of the inner diameter center with respect to the hole 12a of the upper casting 12 and the hole 14a of the lower casting 14 made by the processing equipment 20 can be performed at the same time, It is possible to more quickly and accurately match the axial center of the upper casting 12 and the inner casting portion of the lower casting 14.

In addition, the present invention is to install the piano wire between them for the alignment of the shaft center with respect to the inner diameter portion of the conventional upper casting 12 and the lower casting 14, by using the upper casting 12 and the lower casting (14) To perform the work for axial alignment between the), and then to reduce the various errors associated with the installation of the processing equipment 20 for each of the inner diameter portion separately, and in particular the correction and equipment of the errors accompanying the installation of conventional equipment It is possible to exclude the work time required for installation and dismantling of the rudder blade 10, it is possible to significantly shorten the work time required for the work for the axial center alignment.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limited to the particular details of the embodiments set forth herein. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

10-rudder blade 12-upper casting
14-Lower Casting 12a, 14a-hole
16-supporting structures 18-deodrite
20-processing equipment 22-digital scale

Claims (5)

The rudder blade 10 and the upper casting 12 and the lower casting 14 fixed to the upper and lower portions of the rudder blade 10, respectively, are horizontally supported by the plurality of supporting structures 16 with respect to the working surface. Installing;
Installing a deodolite (18) on the rudder blade (10);
Installing machining equipment (20) for the work of axial alignment for the upper casting (12) and the lower casting (14), respectively;
Installing digital scales (22) for the processing equipment (20) towards the deodolite (18), respectively;
Working position of the processing equipment 20 with respect to the hole 12a of the upper casting 12 and the hole 14a of the lower casting 14 using the deodorite 18 and the digital scale 22. Adjusting the to position; And
A rudder blade comprising a machining operation for axial alignment between the hole 12a of the upper casting 12 and the hole 14a of the lower casting 14 via the processing equipment 20. Axial alignment method between upper casting and lower casting of. The method according to claim 1,
The step of installing the support structure 16 is characterized in that by using a level gauge and a hydraulic jack to adjust the horizontal position with respect to the upper casting 12 and the lower casting 14 including the rudder blade 10 Axial alignment method between upper casting and lower casting of rudder blade. The method according to claim 1,
The machining operation for the axial centering is to machine the inner diameter portion of the hole 12a of the upper casting 12 and the inner diameter portion of the hole 14a of the lower casting 14 with a tapered boring machine, respectively, and the shaft center therebetween. A method of axial alignment between upper casting and lower casting of a rudder blade, characterized in that is achieved by matching. The method according to any one of claims 1 to 3,
After the inner diameter machining operation for the shaft center alignment, re-inspecting the state of the shaft center alignment of the inner diameter portion with respect to the hole 12a of the upper casting 12 and the hole 14a of the lower casting 14; A method of axial alignment between upper casting and lower casting of a rudder blade, characterized in that: The method of claim 4,
Re-examination of the state of the shaft center alignment may be performed by installing a filler gauge at the center of the hole 12a of the upper casting 12 and the hole 14a of the lower casting 14, and then adjusting the shaft center through the level gauge. A shaft center alignment method between upper casting and lower casting of a rudder blade, characterized in that the state is read.

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