KR101190441B1 - Blind flange and apparatus for check leakage of water in submersible vehicle using the same - Google Patents

Abstract

The present invention accurately detects leak points and leaks of an underwater vehicle (hereinafter referred to as a 'submersible carrier'), which includes a leak monitoring flange and a submarine using the same, capable of restrictively operating a hydraulic drive device during a leak test. As the inspection apparatus, the leakage monitoring flange according to the present invention is a flange plate that is in close contact with, fixed to one side of the hydraulic drive device, and the first O-ring and the second O-ring which is disposed at a predetermined interval on one surface of the flange plate and And a moisture sensing reagent applied on the flange plate between the first o-ring and the second o-ring.

Blinds, Flange, Underwater Vehicle, Submersible Vehicle, Leakage, Hydraulic

Description

Blind flange and apparatus for check leakage of water in submersible vehicle using the same}

The present invention relates to a leak monitoring flange and a leak inspection apparatus for a submerged vehicle using the same, and more specifically, a leak monitoring flange capable of restrictively operating a hydraulic drive device during leak inspection while accurately identifying a leak point. And it relates to a leak inspection device of the submerged vehicle using the same.

Various devices such as radar masts, periscopes, communication masts, etc. are provided outside the ship of the submarine, and these devices are almost essentially provided with hydraulic actuators such as hydraulic cylinders and hydraulic motors.

On the other hand, when driving a hydraulic drive device, such as a hydraulic cylinder, a hydraulic motor, and the like during the diving of the submerged vehicle, if the hydraulic drive device or a pipe system connected thereto, the flooding occurs, causing malfunction and failure of the related device. Therefore, it is essential to know exactly whether the hydraulic drive unit and the piping system connected thereto leaks.

To this end, in the conventional case, a blind flange is mounted on the hydraulic drive system and the related piping system, and a deep sea diving is performed, and then the installed blind flange is dismantled to check whether the hydraulic drive system or the piping system is leaked. I choose. Looking at the structure of the conventional blind flange, as shown in Figures 1 and 2 provided with a flange plate 101, one side of the flange plate 101 is fastener 103 for fastening with other fastening means It is provided, on the flange plate 101 is equipped with an O-ring (O-ring) for preventing immersion from the outside.

In the conventional blind flange structure and the leak check method using the same, it is difficult to determine whether the installation of the blind flange is an error as only the O-ring 102 is mounted, and the blind flange is a corresponding hydraulic drive or piping As it completely prevents the driving of the hydraulic drive is blocked by nature.

The present invention has been made in order to solve the above problems, and the leak detection flange of the submersible vehicle using a leak monitoring flange that can be limited to operate the hydraulic drive device at the same time while accurately identifying the leak point The purpose is to provide.

Leak monitoring flange according to the present invention for achieving the above object is a flange plate that is in close contact with, fixed to one side of the hydraulic drive device, the first o-ring and the second o-ring are arranged at a predetermined interval on one surface of the flange plate And a moisture sensing reagent applied on the flange plate between the first o-ring and the second o-ring.

A sampling valve may be further provided at one side of the flange plate, and a through hole may be provided at the flange plate, and one end of the through hole may be connected to the hydraulic driving device, and the other end may be connected to the sample valve.

In addition, the sampling valve may be connected to the hydraulic fluid property test device, the hydraulic fluid property test device is any one of a pressure measuring device, a temperature measuring device, a moisture measuring device, a sampling device.

The leak inspection apparatus of the submersible vehicle using the leak monitoring flange according to the present invention is provided with a plurality of hydraulic drive device which is provided on the outside of the submerged carrier and driven by hydraulic oil, and the claim 1 provided on one side of the hydraulic drive device. The leak monitoring flange, the leak monitoring device which is mounted on the pressure hull of the submersible vehicle, receives the hydraulic oil of the hydraulic drive device, and is provided inside the compartment of the submersible vehicle to monitor the hydraulic oil of the specific hydraulic drive device. It characterized in that it comprises a pipe interlocking device supplied through the through-pipe device and a hydraulic oil property test device for checking the physical properties of the hydraulic oil of the specific hydraulic drive device supplied through the pipe interlocking device.

The leak monitoring penetrating device is composed of a body portion and a plurality of sampling valves, the body portion is provided with a plurality of sampling holes connected to the sampling valve, the pressure hull penetration of the submerged carrier (pressure hull penetration) It is configured to be installable. In addition, the plurality of sampling valves may be provided along the circumference of the upper end of the body portion, one end of the sampling valve is coupled to the upper end of the body portion and the other end and the sampling port coupled to the first connection pipe; The cap may be configured to selectively block the opening of the sampling port.

A plurality of first connecting pipes for connecting the respective hydraulic drive device and the leak-through monitoring device is further provided, wherein each of the first connecting pipe is connected to the sampling valve. In addition, the leak monitoring device may be mounted to the pressure hull penetration (reserve pressure hull penetration) and the like which is provided with the future expandability in the pressure hull.

The pipe interlocking device includes a plurality of connection ports corresponding to the first connection pipe and a plurality of sample supply valves connected to the respective connection pipes, and a plurality of second connecting pipes for connecting the leakage monitoring device and the pipe interlocking device. Connection pipes are further provided, and each of the second connection pipes is connected to the connection port of the pipe interlocking device.

A plurality of third connection pipes connecting the pipe interlocking device and the hydraulic oil property checking device may be further provided, wherein the hydraulic oil property checking device is any one of a pressure measuring device, a temperature measuring device, a moisture measuring device, and a sampling device. In addition, an auxiliary hydraulic pressure supply device for supplying hydraulic oil to a specific hydraulic drive device is connected to the pipe linkage device may be further provided.

The leak monitoring flange according to the present invention and the leak inspection device of the submerged vehicle using the same has the following effects.

The leak monitoring flange coated with two O-rings and water detection reagents can be installed in the hydraulic drive to accurately identify the leak point. In addition, it is possible to prevent contamination of the main hydraulic pressure supply device as it is possible to check the leakage of the hydraulic drive unit mounted and driven outside the submersible carrier in the state in which the hull valve of the submersible carrier is locked. . In addition, by connecting a separate auxiliary hydraulic supply device to the pipe interlocking device to selectively operate a specific hydraulic drive such as communication and navigation equipment, the safe operation of the submersible vehicle during the leakage inspection process This becomes possible.

Hereinafter, a leak monitoring flange and a leak inspection apparatus of a diving vehicle using the same according to an embodiment of the present invention with reference to the drawings will be described in detail. 3 is a plan view of the leak monitoring flange according to an embodiment of the present invention, Figure 4 is a cross-sectional view taken along the line B-B 'of FIG.

3 and 4, the leakage monitoring flange 310 according to an embodiment of the present invention includes a flange plate 311 which is tightly fixed to one side of a hydraulic drive device or a pipe. One side of the flange plate 311 is provided with a fastener 315 for fastening with a fastening means (not shown), and two O-rings 312 and 313 on one surface of the flange plate 311 in contact with the pipe. ) Are placed at regular intervals. At this time, the O-ring provided on the inside of the first O-ring 312, the O-ring provided on the outside will be named as the second O-ring 313, the cross-sectional area of the first O-ring 312 is the leakage monitoring flange 310 Should be larger than the cross-sectional area of the pipe in close contact with

In addition, a moisture detection reagent 314 is applied on the flange plate 311 between the first o-ring 312 and the second o-ring 313. The applied water detection reagent 314 is a reagent that changes color when contacted with water, for example, W.Y. WATER LEVER INDICATOR (WATER FININNG PASTE) can be used. Accordingly, when the leakage occurs, due to the discoloration of the water detection reagent, it is possible to easily check the leakage of the hydraulic drive device or the pipe equipped with the corresponding leakage monitoring flange 310.

On the other hand, the flange plate 311 is provided with a through hole 316 penetrating through the flange plate 311, one side of the through hole 316 is connected to the pipe and the other side is connected to the sampling valve 320 do. The sampling valve 320 is a valve for collecting the hydraulic oil sample from the hydraulic drive or pipe connected to the leak monitoring flange 310, the hydraulic oil sample collected from the sampling valve 320 is ultimately hydraulic oil properties It is delivered to the inspection device and used to measure pressure, temperature and moisture content. The device related to the physical property inspection of the hydraulic oil sample, that is, the leak inspection can be configured as follows.

As shown in FIG. 5, a leakage monitoring penetrating device 520, a pipe interlocking device 530, a hydraulic oil property checking device 540, and the like are provided on the outside and inside of the submarine to check the properties of the hydraulic oil sample. Let's do it.

The leak monitoring penetrating device 520 is mounted on the pressure hull 501 of the submersible vehicle, exactly through the pressure hull penetration of the pressure hull 501 and the hydraulic drive device 510. The hydraulic oil sample collected from the leakage monitoring flange 310 fixed to one side of the serves to deliver to the pipe interlocking device (530). Here, the hydraulic drive device 510 is a device that is externally mounted on the basis of the pressure hull 501 of the submersible vehicle and driven by hydraulic oil, and includes a hydraulic drive device such as a hydraulic cylinder, a hydraulic motor, and a hydraulic pipe connected thereto. Including means.

The leak-through monitoring device 520 is composed of a body portion 521 and the sampling valve 522, as shown in Figure 6 and 7 in detail. At this time, in order to avoid confusion, the sampling valve mounted on the leakage monitoring flange 310 is referred to as a first sample collection valve 320, and the sampling valve connected to the leakage monitoring penetration device 520 is made of a first valve. It will be referred to as a two-sample sampling valve. In addition, between the first sample collection valve 320 and the second sample collection valve 520 and between the leakage monitoring through-pipe 520 and the pipe interlocking device 530, for example, a plurality of connection pipes of a flexible material Is connected to a measuring hose (measuring hose), etc., the hydraulic fluid sample is delivered through the plurality of connection pipes. The connection pipe between the first sample collection valve 320 and the second sample collection valve is the first connection pipe 561, the connection pipe between the leak monitoring device 520 and the pipe interlocking device 530 is made of The two connecting pipes 562 will be referred to.

On the other hand, the body portion 521 is provided through the pressure hull 501, the second sample collection valve 522 is provided on the upper end of the body portion 521 from the hydraulic drive device 510 Takes a sample of hydraulic oil delivered. Specifically, the second sample collection valve 522, one end is fastened to the upper end of the body portion 521 and the other end is the sampling port 522a is fastened to the first connection pipe 561 and the sampling And a cap 522b for selectively blocking the opening of the port 522a. In this case, the first sample collection valve 320 may also be configured by a combination of a sampling port and a cap in the same manner as the second sample collection valve.

A plurality of second sample collection valves 522 including the sampling port 522a and the cap 522b are provided at an upper end of the body portion 521, and the sampling port 522a is provided in the body portion 521. Sampling holes 523 corresponding to the number of are provided. That is, a plurality of sampling holes 523 are provided in the body 521, and one end of each sampling hole 523 is spatially connected to each sampling port 522a provided at the top of the body 521. do. In addition, the other end of each sampling hole 523 is connected to the second connection pipe 562, respectively. Here, the sampling port 522a, the cap 522b, and the first connection pipe 561 are preferably made of a material capable of withstanding high water pressure and seawater.

6 and 7 illustrate a form in which the second sample collection valve 522 is provided on the circumference of the upper end of the body portion 521 and on the upper surface of the body portion 521. As shown in FIG. 9, the plurality of second sample collection valves 522 may be provided only on the upper surface of the body 521. In the leak monitoring penetrating device 520 of FIG. 6 and FIG. 8, the leak monitoring penetrating device 520 shown in FIG. 6 is connectable to a relatively large leak monitoring flange 310, and in this case, leak monitoring The through-hole device 520 is mounted in the form of being pushed into the through-holes 316 and 502 from the outside of the pressure hull 501 into the pressure hull 501, the leakage monitoring through-hole device 520 shown in FIG. Is for connecting to a relatively small leakage monitoring flange 310 as the leakage monitoring penetrating device 520 is pushed into the through holes 316, 502 from the pressure hull 501 outside the pressure hull 501. It is mounted in the form.

Next, the pipe interlocking device 530 is provided in the submersible vehicle, and serves to collect a plurality of second connection pipes 562 extending from the leak monitoring tube 520. Each of the collected second connection pipes 562 is connected to the hydraulic oil property inspection device 540 to be described later and leaks of a specific hydraulic drive device 510 which is an initial supply source of hydraulic oil supplied to each second connection pipe 562. It is confirmed. To this end, the pipe linkage device 530 has a number of connectors corresponding to the second connection pipe 562, as shown in Figure 10, each connector is spatially connected to the sample supply valve 532. . On the other hand, each sample supply valve 532 may be composed of a sampling port and a cap, similar to the second sample collection valve 522 described above. One end of the sampling port is connected to the connector, and the other end of the sampling port is connected to the third connection pipe 563. In addition, the second sample collection valve 522 and the sample supply valve 532 are preferably all designed to perform the function of the check valve to prevent the back flow of the hydraulic oil.

The plurality of third connection pipes 563 extending from the pipe interlocking device 530 are selectively connected to the hydraulic oil property inspection device 540. The hydraulic oil property testing device 540 may be subdivided into a pressure measuring device, a temperature measuring device, a moisture measuring device, a sampling device, and the like, and each of the third connection pipes 263 may be divided into the pressure measuring device and the temperature measuring device. By connecting to any one of the device, the moisture measuring device to measure the physical properties of the hydraulic oil supplied to the third connection pipe 263, based on this leakage of the specific hydraulic drive unit 210, which is the starting point of the third connection pipe 263 It is possible to determine whether or not. In addition, through sampling, visual identification or accurate analysis is possible later.

In the above, the configuration related to the hydraulic oil property inspection has been described, and the first sample collection valve 320 of the leakage monitoring flange 310 is directly connected to the hydraulic oil property inspection device without passing through the leakage monitoring through device and the pipe interlocking device. May be connected.

On the other hand, the leak inspection apparatus of the submersible vehicle according to an embodiment of the present invention may be further provided with an auxiliary hydraulic pressure supply device 550 in addition to the components as described above. The auxiliary hydraulic pressure supply device 550 is to supply hydraulic oil to the hydraulic drive device 510 in place of the main hydraulic pressure supply device 150, communication and navigation in the leakage inspection process for the hydraulic drive device 510 It is used to limit the minimum equipment required for the safety of diving vehicles such as equipment.

In addition, the leak test device in the submersible vehicle according to an embodiment of the present invention as described above operates in a state in which the hydraulic oil supply from the oil pressure supply device 150 to the hydraulic drive unit 510 is blocked. That is, the leakage inspection apparatus is operated in a state in which the various hull valves 503 provided on the pressure hull 501 between the main oil pressure supply device 150 and the hydraulic drive unit 510 are locked.

1 is a plan view of a blind flange according to the prior art;

2 is a cross-sectional view taken along line AA ′ of FIG. 1.

3 is a plan view of the leak monitoring flange according to an embodiment of the present invention.

4 is a cross-sectional view taken along line BB ′ of FIG. 3.

5 is a block diagram of a leak inspection device of the submersible vehicle according to an embodiment of the present invention.

Figure 6 is a front sectional view of the leak monitoring penetrating device according to a first embodiment of the present invention.

7 is a plan view of the leak-through monitoring device according to a first embodiment of the present invention.

8 is a front sectional view of the leak-through monitoring device according to a second embodiment of the present invention.

9 is a plan view of the leak-through monitoring device according to a second embodiment of the present invention.

10 is a front sectional view of a pipe interlocking apparatus according to an embodiment of the present invention.

Description of the main parts of the drawing

310: leakage monitoring flange 311: flange plate

312: first O-ring 313: second O-ring

314: moisture detection reagent 315: fastener

316: through hole 320: first sample collection valve

501: pressure hull 502: pressure hull through hole (or preliminary through hole)

503: hull valve 510: hydraulic drive device

520: leak monitoring device 521: body portion

522: second sample collection valve 523: sampling hole

530: pipe interlocking device 531: connection part

532: sample supply valve 540: hydraulic oil property inspection device

550: auxiliary hydraulic supply device

Claims (17)

A flange plate that is in close contact with and fixed to one side of the hydraulic drive; First and second o-rings disposed at regular intervals on one surface of the flange plate; And A leakage monitoring flange comprising a moisture detection reagent applied on the flange plate between the first O-ring and the second O-ring. The leakage monitoring flange according to claim 1, further comprising a sampling valve at one side of the flange plate. The flange of claim 2, wherein the flange plate is provided with a through hole, one end of the through hole is connected to the hydraulic driving device, and the other end is connected to the sampling valve. The leakage monitoring flange according to claim 3, wherein the sampling valve is connected to a hydraulic oil property inspection device. The water leakage monitoring flange according to claim 4, wherein the hydraulic oil property inspection device is any one of a pressure measuring device, a temperature measuring device, a moisture measuring device, and a sampling device. In the leak inspection apparatus of the submerged vehicle using the leak monitoring flange of claim 1, A plurality of hydraulic driving devices provided outside the ship of the submarine vehicle to consume hydraulic oil; Leakage monitoring flange of claim 1 provided on one side of the hydraulic drive device; Leakage monitoring penetrating device is mounted on the pressure hull of the submerged vehicle receiving the hydraulic oil of the hydraulic drive device; A pipe interlocking device provided inside the box of the submarine vehicle to receive hydraulic oil of a specific hydraulic driving device through the leak monitoring penetrating device; And And a hydraulic oil property inspection device for inspecting physical properties of the hydraulic oil of a specific hydraulic drive device supplied through the pipe interlocking device. According to claim 6, The leak monitoring penetrating device is a leak inspection device of the submerged flying vehicle, characterized in that consisting of a body portion and a plurality of sampling valves. The apparatus of claim 7, wherein a plurality of sampling holes are provided in the body, and each of the sampling holes is connected to the respective sampling valves. The method of claim 7, wherein a plurality of first connecting pipes for connecting each of the hydraulic drive device and the leak-through monitoring device is further provided, wherein each of the first connecting pipes is connected to the sampling valve Leakage inspection device for submerged vehicles. 7. The leak test apparatus according to claim 6, wherein a preliminary through hole is further provided in the pressure hull, and the leak monitoring penetrating device is mounted in the preliminary through hole. The apparatus of claim 7, wherein the plurality of sampling valves are provided along a circumference of the upper end of the body portion. The method of claim 9, wherein the sampling valve, A sampling port having one end coupled to an upper end of the body portion and the other end coupled to the first connection pipe; Leak inspection apparatus for a submersible vehicle, characterized in that consisting of a cap for selectively blocking the opening of the sampling port. The apparatus of claim 9, wherein the pipe interlocking device comprises a number of connectors corresponding to the first connection pipe and a plurality of sample supply valves connected to the respective connectors. According to claim 13, A plurality of second connecting pipes for connecting the leak-through monitoring device and the pipe interlocking device is further provided, wherein each of the second connecting pipes is connected to the connector of the pipe interlocking device Leakage inspection device for submerged vehicles. The apparatus of claim 13, further comprising a plurality of third connection pipes connecting the pipe interlocking device and the hydraulic oil property checking device. According to claim 6, wherein the hydraulic fluid property inspection device is a water leakage inspection device of the submersible vehicle, characterized in that any one of the pressure measuring device, temperature measuring device, moisture measuring device, sampling device. 7. The leak test apparatus according to claim 6, further comprising an auxiliary hydraulic pressure supply device connected to the pipe interlocking device to supply hydraulic oil to a specific hydraulic driving device.

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