KR20030057014A - Stock and pintle arrary measurement device of rudder - Google Patents

Abstract

PURPOSE: An arrangement measuring device of a stock and a pintle is provided to minimize the production errors of a rudder by easily measuring with a simple structure. CONSTITUTION: Sticking rollers(2,3) are fixed under a supporting frame(1), and the sticking rollers(2,3) are rotatable. A fixing member(5) of an inner diameter is penetrated through the upper center of the supporting frame. A measuring member(4) is vertically inserted by penetrating the fixing member of the inner diameter. An indicating portion(7) is installed to be moved through the measuring member. The indicating portion displays the moved distance as a digitalized number. A magnet(10) is fixed under the measuring member. A level tube(9) is stuck to the supporting frame to adjust the horizontal and the vertical statuses of the supporting frame. A reference displaying member(11) is stuck to the indicating portion as a reference point. Thereby, the arrangement of a stock and a pintle in a rudder is measured simply and easily.

Description

Rudder stock and pintle alignment meter {STOCK AND PINTLE ARRARY MEASUREMENT DEVICE OF RUDDER}

The present invention relates to a stock and pintle alignment measuring device of the rudder to minimize the manufacturing error of the rudder and induce a smooth operation by enabling the alignment of the stock and pintle in parallel with the automatic leveler or collimator when manufacturing the rudder will be.

Conventionally, when measuring the vertical axis of the rudder, it is measured by using deodorite, which is a kind of collimator, and steel ruler of 1mm scale, measurement error is big and working time is long, and ship / class inspection is delayed. After marking the center line of the stock and pintle, the steel plate should be attached to the marking area and inspected, resulting in inaccurate measurement and excessive time and manpower.

The present invention was created in view of the above-described problems of the prior art as described above, to minimize the manufacturing errors of the rudder by using a mechanism that can easily perform a measurement operation while having a simple structure. The purpose is to provide a rudder stock and pintle alignment meter.

1 is a cross-sectional view of the installation state of the device of the present invention;

2 is a perspective view of the device of the present invention,

Figure 3 is an exemplary state of use of the device of the present invention.

Explanation of symbols on the main parts of the drawings

1: Support frame 2,3: Contact roller

4: measuring instrument 5: internal diameter fixture

7: indicating unit 9: bubble tube

10: magnet 11: reference indicator

The above object of the present invention is a '∩' shaped support frame; Contact rollers rotatably fixed to both lower ends of the support frame; An inner diameter fastener disposed through the center of the upper surface of the support frame; A measurer vertically penetrated through the inner diameter fixture; An indicator configured to be movable along the measurer and to display the moving distance as a digitized value; A magnet fixed to the outer circumference of the lower end of the measurer; A bubble tube attached to one side of the support frame to adjust horizontal and vertical states of the support frame; It is achieved by providing a stock and pintle alignment measuring instrument of the rudder, characterized in that it comprises a reference indicator which is a reference point upon collimation attached to the indicator.

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

1 is a longitudinal cross-sectional view of an operating state schematically showing the device of the present invention, and FIG. 2 is a perspective view of the device of the present invention.

According to FIGS. 1 and 2, a support frame 1 having a substantially '∩' shape is provided, and contact rollers 2 and 3 are rotatably fixed to both ends of the lower end of the support frame 1.

In addition, one side of the support frame 1, for example, the front side is easy to measure the size of the bubble tube (9) in the longitudinal and transverse direction is installed to perform the function of the level.

In addition, the inner diameter fixture 5 is fixed by penetrating the width center of the support frame 1 up and down, and the magnet 10 is provided on the outer peripheral edge of the lower end of the inner diameter fixture 5.

The magnet 10 may use a permanent magnet having a predetermined magnetic force, but may also use an electromagnet capable of selectively emitting magnetic force.

The stopper 8 is fixed to the outer circumferential edge of the inner diameter fastener 5, that is, the upper surface of the support frame 1, with the stopper 8 fixed to the inner diameter fastener 5. It is to place the descent limit of.

On the other hand, the inner diameter fastener (5) is inserted into the bar or rod-shaped measuring device (4), the measuring device 4 is coupled to the indicator (7) that is movable in the longitudinal direction.

The indicating unit 7 is a known digital measuring instrument, for example, to convert the distance traveled along the outer surface of the measuring instrument 4 into a voltage and convert it to digital through an A / D converter. Can be configured.

To this end, the indicator 7 may be a small PCB containing a power source (battery), driving algorithm.

In addition, the support 7 is preferably fixed to the height adjuster 4 by the fixing bolt 6 as shown.

In addition, the indicator 7 is provided with a reference indicator 11, which is a reference point for collimation, and the measurer 4 may be provided with a ruler.

The present invention made up of such a configuration has the following operational relationship.

3, the pintle vertical axis of the rudder 15 can be inspected in the same manner as shown in FIG. The contact rollers 2 and 3 are driven and seated in the proper positions.

Subsequently, the contact rollers 2 and 3 are moved to the left and right so that the vertical and horizontal centers are aligned through the bubble tube 9, and then the support frame 1 is fixed so as not to move by using the magnet 10. .

In this state, the collimation is completed while the indicator 7 is moved along the measurer 4 while collimating the collimator with the reference indicator 11 provided in the indicator 7.

When the collimation is completed, it is possible to simply measure the alignment of the stock and pintle of the rudder by reading the scale value shown in the indicator (7).

Here, the apparatus of the present invention may measure the alignment of the stock and pintle of the rudder, and may also be used to measure the alignment of the horizontal and vertical axes of the boring equipment.

In addition, the zero adjustment relationship of the apparatus of the present invention is the zero point is matched by collimating the reference indicators 11 of each support 7 in the state where the two support frames made in the same position is set on the horizontally adjusted surface plate You can see that.

As described in detail above, according to the present invention, the alignment of the stock and pintle of the rudder can be measured simply and easily, thereby providing an effect of improving the efficiency of the work.

Claims (1)

A support frame 1 of the '∩' shape; Contact rollers (2,3) rotatably fixed to both sides of the lower end of the support frame (1); An inner diameter fixing tool 5 disposed through the center of the upper surface of the support frame 1; A measuring instrument 4 vertically penetrated through the inner diameter fixing tool 5; An indication unit (7) installed movably along the measurer (4), the moving distance of which is displayed as a digitized value; A magnet 10 fixed to the outer periphery of the lower end of the measurer 4; A bubble tube (9) attached to one side of the support frame (1) to adjust horizontal and vertical states; Rudder stock and pintle alignment measuring instrument, characterized in that it comprises a reference indicator (11) which is a reference point when collimating attached to the indicator (7).