KR101175469B1 - Length measuring apparatus for adjustable pipe - Google Patents

Abstract

The present invention relates to an apparatus for measuring the length of an adjusting tube that can more accurately and accurately measure the length of the adjusting tube to be installed between the fixed tube in the ship, a pair to produce a shape of the adjusting tube connecting a pair of fixed tube spaced apart from each other An apparatus for measuring the length of an adjusting tube for measuring the length between the fixing tubes of claim 1, comprising: a first fixing member comprising a first bolt portion and a first nut portion to be detachably coupled to a bolt hole formed through a first flange of one fixing tube, and the other A second fastener comprising a second bolt portion and a second nut portion to be detachably coupled to a bolt hole formed through the second flange of the fixed tube, and a rear end thereof is detachably coupled to the first bolt portion of the first fastener; A wire coupled to the ring is wound to be pulled forward to fix the ring to the second bolt portion of the second fastener. It comprises a wire measuring sphere that can draw the wire to measure the lead length of the wire through a wire draw sensor.

Description

LENGTH MEASURING APPARATUS FOR ADJUSTABLE PIPE}

The present invention relates to a length measuring device of the adjusting pipe for measuring the length between the pair of fixing pipes to produce a shape of the adjusting pipe connecting the pair of fixed pipes spaced apart from each other in the vessel.

In general, ships are manufactured and installed in units of blocks, and internal pipes are also manufactured and installed in units of blocks to form a pipe line for normal operation of all engines during final construction.

However, if various engines are manufactured in units of blocks as in the case of large ships of large size, installation errors due to the manufacturing based on the initial design will inevitably occur, and the piping lines also have errors accordingly.

However, when the pipe line is formed, the FIXED PIPE of the long length connecting various engines can be manufactured and installed according to the initial design drawing, and the installation error of various engines can be overcome by cutting off the space between the fixed pipes. . At this time, a short length adjusting pipe (ADJUSTABLE PIPE) connecting each fixing pipe is manufactured and installed through post-working.

There are three ways to make such a coffin tube. There are three methods, a spot method, a jig method, and a measurement method. In recent years, among the manufacturing methods of such coordinating pipes, measurement and reproducing methods that can easily and simply produce coordinating pipes and reduce production costs by receiving logistics movements have been in the spotlight.

In the measurement and reproducing method, the elements of the adjusting tube to be formed between the pair of fixed tubes are measured by using a measuring apparatus, and the measured values are input to the adjusting tube reproducing apparatus to reproduce. The coordinator made in this way is taken to the field and installed.

In the measurement and reproducing method, the elements of the control tube connecting a pair of fixed tubes can be classified into four types: the length of the pipe, the face angle of the flange, the bolt hole position of the flange, and the step of the pipe line. Therefore, the measuring method of the adjustment tube should include all four elements, and the expression method includes a method represented by relative three-dimensional coordinates, a method represented by an angle and a length, a method represented by a length, and a method represented by an angle.

As described above, there are various methods of measuring the adjustment tube, and the method represented by the length is a method of measuring the center length of the bolt hole of each flange formed on the pair of fixed tubes, which is simple and relatively accurate.

However, in the related art, since a separate device for measuring the precise length of the adjusting tube is not developed, an operator simply measures the length of the adjusting tube using a file or a ruler, so that accurate and accurate measurement is difficult.

An object of the present invention devised to solve the above problems is to provide an apparatus for measuring the length of the adjusting tube that can more accurately and accurately measure the length of the adjusting tube to be installed between the fixed tube in the vessel.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments with reference to the accompanying drawings.

In order to achieve the above object, the length measuring device of the adjusting pipe according to the present invention, measuring the length of the adjusting pipe to measure the length between the pair of fixed pipes to produce a shape of the adjusting pipe connecting the pair of fixed pipes spaced apart from each other An apparatus, comprising: a first fastener comprising a first bolt portion and a first nut portion to be detachably coupled to a bolt hole formed through a first flange of one fixing tube, and a bolt hole penetrating through a second flange of the other fixing tube; A second fastener comprising a second bolt portion and a second nut portion to be coupled to a second side, and a rear end thereof are detachably coupled to the first bolt portion of the first fastener, and a wire coupled to the front end thereof is retractable forwardly. The wire is pulled out to secure the ring to the second bolt portion of the second fastener and the wire is pulled through the wire draw sensor. It comprises a wire measuring sphere that can measure the take-off length.

The wire measuring instrument may further include a laser pointer installed at a predetermined distance from the point at which the wire is drawn out, and firing a laser beam forward, wherein the second bolt portion of the second fixture is projected from the laser pointer. It characterized in that it comprises an annular index line formed a predetermined distance apart from the point that the ring coupled to the front end of the wire is fixed so that the laser beam is displayed.

In addition, the wire measuring sphere is a spherical ball is formed at the rear end, the first bolt portion of the first fastener is characterized in that the socket for inserting the ball of the wire measuring sphere is formed.

The length measuring device of the adjusting pipe according to the present invention can easily and simply perform the length measurement between the bolt holes through the first fastener, the second fastener and the wire measuring tool which are detachably coupled to the bolt holes of each flange of both fixing pipes. have.

In addition, the wire measuring tool interposed between the first fixture and the second fixture can ensure the straightness of the wire drawn out from the wire measuring tool through the laser point and the index line can be more precise and accurate length measurement.

In addition, by the ball joint coupled to the rear end of the wire measuring tool and the first fastener, the error of the length measurement between the first fastener and the second fastener can be minimized as much as possible, and the wire measuring tool can be easily detached from the first fastener. It can secure the convenience of work.

1 is a perspective view showing an embodiment of the length measuring device of the adjustment pipe according to the present invention,
2 is an exploded perspective view of the embodiment of FIG.
3 is a perspective view illustrating a coupling state of the wire measuring tool and the first fixture in the embodiment of FIG. 1,
4 is a perspective view illustrating a connection and operation relationship between a wire measuring tool and a second fixture in the embodiment of FIG. 1.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the adjusting device of the length of the adjusting tube according to the present invention.

Device for measuring the length of the adjusting tube according to the present invention, as shown in Figures 1 to 4 as a device for measuring the length between the pair of fixed tube to form the shape of the adjusting tube connecting the pair of fixed tube installed spaced from each other , The first fastener 100, the second fastener 200, and the wire measuring tool 300 are included. The first fastener 100 is composed of the first bolt part 110 and the first nut part 120, and the second fastener 200 is composed of the second bolt part 200 and the second nut part 220. The wire measuring device 300 may include a wire 310, a ring 320, a wire draw sensor 330, a laser pointer 340, and a ball 350.

As shown in FIG. 1, the pair of fixing pipes have a first flange A and a second flange B, respectively, and the first flange A and the second flange B each include a plurality of bolt holes ( H) penetrates annularly along the circumference of each flange.

As shown in FIGS. 1 and 2, the first fastener 100 may be detachably coupled to the bolt hole H formed through the first flange A of the one fixing pipe. The nut part 120 is comprised. The first bolt part 110 is inserted into the bolt hole H of the first flange A, and then the first nut part 120 is connected to the first bolt part in the opposite direction in which the first bolt part 110 is inserted. The bolt 110 and the bolt is fixed. Accordingly, the first fastener 100 is firmly fixed to the first flange A of one fastening pipe, and on the contrary, when the first nut part 120 is released from the first bolt part 110, the first fastener 100 is Departure from the first flange (A). The first fixture 100 as described above is for specifying the center point of the bolt hole (H) of the first flange (A) of one of the fixing pipe length of the second fixture 200 and the wire measuring device 300 to be described later It becomes a reference point of a measurement.

As shown in FIGS. 1 and 2, the second fastener 200 may be detachably coupled to the bolt hole H formed through the second flange B of the other fixing pipe. It consists of two nut parts 220. After the second bolt portion 210 is inserted into the bolt hole H of the second flange B, the second nut portion 220 is connected to the second bolt portion in the opposite direction in which the second bolt portion 210 is inserted. 210 is bolted and fixed. Accordingly, the second fastener 200 is firmly fixed to the second flange B of the other fastening pipe, and on the contrary, when the second nut part 220 is released from the second bolt part 210, the second fastener 200 is fixed. Is separated from the second flange (B). The second fixture 200 as described above is to specify the center point of the bolt hole (H) of the second flange (B) of the other fixing pipe to the first fixture 100 and the wire measuring sphere 300 to be described later It becomes the reference point of the length measurement by

The wire measuring tool 300 is a tool for measuring the length between the reference point designated by the first fastener 100 and the second fastener 200 as shown in FIGS. 1 and 2. That is, the wire measuring instrument 300 is detachably coupled to the rear end of the first bolt portion 110 of the first fixture 100, the wire 310 coupled to the front end of the ring 320 is drawn out in front The wire 310 may be drawn through the wire draw sensor 330 by drawing the wire 310 so as to be wound up to fix the ring 320 to the second bolt portion 210 of the second fixture 200. The withdrawal length of can be measured.

In order to measure the length between the first fixture 100 and the second fixture 200, the rear end of the wire measuring tool 300 is fixed to one reference point, and the wire 310 drawn out from the wire measuring device 300 is another reference point. It needs to be fixed at Therefore, as shown in FIGS. 1 and 2, the rear end of the wire measuring tool 300 is detachably coupled to the bolt part 110 of the first fixture 100, and the wire drawn out from the wire measuring tool 300 ( The ring 320 coupled to the front end of the 310 is locked to the bolt portion 210 of the second fixture 200. The bolt portion 210 of the second fixture 200 should be formed with a latch 211 to be fixed to the hook 320 of the wire measuring tool 300.

On the other hand, the wire measuring tool 300 is coupled to the first bolt portion 110 of the first fastener 100 by the operator grips the first fastener 100, the wire 320 is drawn out to the ring 320 to the second fastener ( It is fixed to the second bolt portion 210 of the 200, the straightness in the longitudinal direction of the wire 320 and the wire measuring port 300 withdrawn from the wire measuring sphere 300 is measured to be accurate and accurate length This is possible. In order to precisely measure the length of the wire measuring tool 300, the laser pointer 340 and the index line 215 which will be described later are installed and formed.

As shown in FIG. 4, the laser pointer 340 is installed at a predetermined distance from the point at which the wire 310 is drawn out from the wire measuring port 300 and emits a laser beam forward. At this time, the laser beam emitted from the laser pointer 340 is displayed on the second bolt portion 210 of the second fixture 200, the straightness in the longitudinal direction of the wire measuring port 300 and the wire 310 In order to secure it, it is necessary to make the length measurement while displaying the ray point beam displayed on the second bolt portion 210 at a desired point. That is, the ring 320 coupled to the front end of the wire 310 is fixed to the second bolt portion 210 so that the laser beam emitted from the laser pointer 340 is fixed, for example, from the latch 211. An annular index line 215 formed at a distance from each other may be drawn. Here, the index line of the annular line from the point where the wire 320 is fixed to the predetermined distance which is the distance from the point where the laser pointer 340 is launched and the ring 320 coupled to the front end of the wire 310 is fixed The predetermined distance at which 215 is drawn is the same distance. Through the index line 215 formed on the laser pointer 340 and the second bolt portion 210 as described above, it is possible to secure the straightness along the longitudinal direction of the wire measuring sphere 300 and the wire 310 to precise length Measurement can be made easily.

Moreover, the rear end of the wire measuring device 300 is not the straight pipe until the first pipe A and the second flange B of each of the pair of fixing pipes are positioned so as to face each other. If it is simply fixed to the first bolt portion 110 of 100, the straightness of the wire measuring sphere 300 and the wire 310 can not be secured. In order to prevent such a problem, the rear end of the wire measuring tool 300 needs to be rotatably coupled to the first bolt part 210. Therefore, as shown in FIG. 3, the wire measuring sphere 300 has a spherical ball 350 formed at a rear end thereof, and the first bolt part 110 of the first fastener 100 is the wire measuring sphere ( The socket 115 into which the ball 350 of 300 may be inserted is formed, and the ball 350 and the socket 115 are ball-joined so that the wire measuring hole 300 may rotate each. Accordingly, even when the adjustment pipe connecting the first flange (A) and the second flange (B) is a curved pipe, the straightness along the longitudinal direction of the wire measuring port 300 and the wire 310 is secured at all times to measure precise lengths. Can be done.

The embodiments of the present invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art will be able to modify the technical idea of the present invention in various forms. Accordingly, such improvements and modifications will fall within the scope of the present invention as long as they are obvious to those skilled in the art.

A: first flange
B: second flange
H: Bolt Hole
100: first fastener
110: first bolt portion 115: socket
120: first nut part
200: second fixture
210: second bolt portion 215: index line
220: second nut part
300: wire measuring sphere
310 wire 320 loop
330: wire draw sensor 340: laser pointer
350: ball

Claims (3)

In the length measuring device of the adjusting tube for measuring the length between the pair of fixing tube to form the shape of the adjusting tube connecting the pair of fixed tube spaced apart from each other,
A first fastener comprising a first bolt portion and a first nut portion to be detachably coupled to the bolt hole formed through the first flange of the one fixing pipe;
A second fastener comprising a second bolt portion and a second nut portion to be detachably coupled to the bolt hole formed through the second flange of the other fixing tube;
The rear end is detachably coupled to the first bolt portion of the first fastener, and the wire coupled to the front end is wound to be pulled forward, and the ring is fixed to the second bolt portion of the second fastener. In the case of drawing out the wire includes a wire measuring sphere provided with a wire draw sensor to measure the length of the wire drawn out,
The wire measuring sphere,
A laser pointer installed at a predetermined distance from a point at which the wire is drawn, and emitting a laser beam forward;
The second bolt portion of the second fastener,
And an annular index line formed at a predetermined distance from a point where the ring coupled to the front end of the wire is fixed so that the laser beam emitted from the laser pointer is displayed.
The wire measuring sphere has a spherical ball formed at the rear end,
The first bolt portion of the first fixture is a length measuring device of the adjusting pipe, characterized in that the socket is formed that can be inserted into the ball of the wire measuring sphere. delete delete

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