KR101099755B1 - Level measuring device of vessel tank - Google Patents

Abstract

An exemplary embodiment of the present invention provides an apparatus for level measurement of a marine tank. The level measuring device of the marine tank is a level measuring device configured in a marine tank that defines a plurality of storage spaces, the level measuring pipe passing through an upper surface of the tank and disposed in the storage space, and the storage space. A ventilation unit mounted on the level measuring pipe to allow air to be introduced and discharged therein; and a level integrally formed on the ventilation unit to measure the level of the storage fluid contained in the storage space through the level measuring pipe. It includes a measurement unit. Accordingly, in the exemplary embodiment of the present invention, the level measuring means for measuring the level of the storage fluid accommodated in the storage space of the tank, and the air inlet and outlet means for introducing and discharging air to the storage space, respectively, and are provided separately; In contrast, since the level measuring unit and the venting unit are integrally constructed, it is expected that the construction cost of the ship can be reduced by reducing ancillary materials such as pipes and the like.

Description

LEVEL MEASURING DEVICE OF VESSEL TANK}

Exemplary embodiments of the present invention relate to a marine tank, and more particularly to a level measuring device capable of measuring the fluid level and the remaining capacity of the tank.

In general, a ship such as a general ship or a special ship is provided with a tank capable of storing a predetermined fluid, such a tank is a ballast tank (ba1last tank) for minimizing fluctuations in the center of gravity of the ship, the safe operation of the ship For example, a seawater tank, and an oil tank for storing cargo oil.

In the tank as described above, a plurality of storage spaces are formed, and a level measuring means for measuring the level and the remaining capacity of the storage fluid contained in the storage space is provided.

In addition, the tank is provided with an air inlet and outlet means for introducing and discharging air to the storage space in order to prevent the contraction and expansion of the tank when supplying the fluid to the storage space or discharge the storage fluid from the storage space; have.

Here, the level measuring means is made as a structure in which the sounding level measurement of the storage fluid stored in each storage space of the tank is made, the level measuring pipe (commonly known as "sounding pipe" in the art) disposed in the storage space of the tank. Is provided).

In addition, the air inlet and outlet means is a pipe structure connected to the tank separately from the level measuring means, when the storage fluid is filled in each storage space of the tank to discharge air from the storage space, when the storage fluid is discharged from the storage space It is made as a structure which can introduce air into the storage space.

On the other hand, ballast tanks in ships, along with level measuring means for measuring the level and the remaining capacity of the seawater contained in the storage space, by injecting air into each storage space by generating bubbles in the seawater contained in the storage space icing of seawater It is provided with a separate air injection means to prevent the.

In this case, the air injection means is a pipe structure connected to the tank separately from the level measuring means, it is made as a structure capable of injecting air into the storage space of the tank through an air supply means such as a compressor.

By the way, in the prior art, since the level measuring means, the air inflow means or the air supply means are separately provided in the tank, the auxiliary materials such as the pipe structure, the installation quantity, and the installation space are increased, and thus the ship Has a problem that the construction cost of the rise.

Exemplary embodiments of the present invention have been created to improve the above-described problems, and provide a device for measuring a fluid level of a tank as a simple structure, and a level measuring device for a marine tank capable of inflowing or injecting air.

To this end, the level measuring device of the marine tank according to an exemplary embodiment of the present invention, a level measuring device is configured in the marine tank having a plurality of storage spaces, penetrating the upper surface of the tank to the storage space The level measuring pipe disposed therein, a ventilation unit mounted on the level measuring pipe to allow air to flow in and out of the storage space, and the level of the storage fluid contained in the storage space can be measured through the level measuring pipe. And a level measuring unit integrally configured with the venting unit.

In the level measuring device of the marine tank, the level measuring pipe may be an internal conduit of the leveling path and the air inlet / discharge path of the storage fluid.

In the level measuring device of the marine tank, the level measuring pipe is formed in the first conduit penetrating the upper surface of the tank and coupled to the upper surface, the first conduit inside the storage space and a plurality of holes It may be made including a formed porous member.

In the level measuring device of the marine tank, the upper end of the first conduit penetrates the deck surface may be coupled to the deck surface.

In the apparatus for measuring the level of the marine tank, the vent comprises a second conduit coupled to the upper end of the first conduit, and a vent body to form an inlet and outlet passage of air and coupled to the upper end of the second conduit Can be done.

In the apparatus for measuring the level of the marine tank, the vent body is connected to the second conduit and the air passage to form a flow, the air inlet connected to the vent and the air inlet and outlet is made, and the And an intermediate passage formed between the air passage and the air outlet, and a floating body disposed in the intermediate passage and floating by the fluid flowing into the intermediate passage through the air outlet.

In the vessel tank level measurement device, the floating body may be installed to be slidable in the vertical direction through the guide bar to selectively open and close the aeration passage.

In the level measuring device of the marine tank, the float may be made in the form of a ball that can selectively open and close the air passage.

In the level measuring device of the marine tank, the level measuring unit may be made of a third conduit integrally coupled to the second conduit, and includes a cover detachably provided at the upper end of the third conduit.

In addition, the level measuring device of the marine tank according to an exemplary embodiment of the present invention, a level measuring device is configured in the marine tank that is divided into a plurality of storage space, penetrating the upper surface of the tank to the storage space And a level measuring pipe arranged to measure the level of the storage fluid contained in the storage space through the level measuring pipe and to inject air into the storage space.

In the level measuring device of the marine tank, the level measuring pipe may have an internal conduit consisting of a leveling path and an air injection path of the storage fluid.

The level measuring device of the marine tank includes a level measuring unit mounted to an upper end of the level measuring pipe for measuring the level of the storage fluid, and the level measuring unit for injecting air into the storage space through the level measuring pipe. It may include an air injection unit configured integrally.

In the level measuring device of the marine tank, the level measuring unit may include a sounding head coupled to the level measuring pipe having a cover detachable to the upper end.

In the level measuring device of the marine tank, the level measuring unit may be configured integrally with the air injection unit to the sounding head.

In the level measuring device of the marine tank, the sounding head may be integrally formed on the outer circumferential surface coupled to the inner passage for mounting the air inlet.

In the marine tank level measuring device, the level measuring unit is rotatably installed in the inner passage of the sounding head and has an opening and closing member for selectively opening and closing the inner passage, and a weight having a predetermined weight and the sound It may include a lever member connected to the opening and closing member on the outside of the ding head, and a foot bar rotatably installed on the outer circumferential surface of the sounding head and coupled to the lever member.

In the level measuring device of the marine tank, the foot bar may be rotatably mounted on the outer peripheral surface of the sounding head on the opposite side of the air inlet.

In the vessel tank level measurement device, the foot bar is provided with a pedal at one end, the other end may be coupled to the lever member through a connecting rod.

In the vessel tank level measurement device, the air injection portion may be made of a connecting member connected to the air injection hose, and a valve body coupled to the sounding head through a flange.

According to the level measurement apparatus of a marine tank according to an exemplary embodiment of the present invention as described above, the level measuring unit for measuring the level of the storage fluid contained in the storage space of the tank, and the air can be introduced into and discharged to the storage space The vent part which exists can be comprised integrally.

Therefore, in the present embodiment, the level measuring means for measuring the level of the storage fluid contained in the storage space of the tank and the air inlet and outlet means for introducing and discharging air to the storage space, respectively, is provided separately, unlike the prior art level Since the measurement unit and the ventilation unit are integrally constructed, it is expected that the construction cost of the ship can be reduced by reducing the additional materials such as pipes and installation quantity.

In another exemplary embodiment of the present invention, a level measuring unit for measuring the level of seawater contained in the storage space of the tank and an air injecting unit capable of injecting air into the level measuring pipe are integrally formed in a single level measuring pipe. can do.

Therefore, in the present embodiment, unlike the prior art in which the level and remaining capacity of the seawater contained in each storage space of the tank through each pipe is measured and air is injected into the storage space, each storage of the tank as a single level measuring pipe Since the level measurement and air injection are possible for the space, the effect of reducing the installation volume of the pipe and the layout space of the pipe to the tank is expected.

These drawings are for the purpose of describing an exemplary embodiment of the present invention, and therefore the technical idea of the present invention should not be construed as being limited to the accompanying drawings.
1 is a view schematically showing an apparatus for measuring a level of a marine tank according to a first exemplary embodiment of the present invention.
FIG. 2 is a cross-sectional view illustrating in detail a device for measuring a level of a marine tank according to a first exemplary embodiment of the present invention.
Fig. 3 is a cross sectional view showing the portion “A” of the level measuring pipe applied to the level measuring device of the marine tank according to the first exemplary embodiment of the present invention.
4A and 4B are cross-sectional views illustrating a ventilation body applied to an apparatus for measuring a level of a marine tank according to a first exemplary embodiment of the present invention.
5A and 5B are views for explaining the operation of the level measuring device of the marine tank according to the first exemplary embodiment of the present invention.
FIG. 6 is a cross-sectional view illustrating an apparatus for measuring a level of a marine tank according to a second exemplary embodiment of the present invention. FIG.
FIG. 7 is a view schematically illustrating an apparatus for measuring a level of a marine tank according to a third exemplary embodiment of the present invention.
8 is a cross-sectional view illustrating in detail a device for measuring a level of a marine tank according to a third exemplary embodiment of the present invention.
9 and 10 are cross-sectional configuration diagrams showing the level measurement portion applied to the level measuring device of the marine tank according to a third exemplary embodiment of the present invention.
11 and 12 are cross-sectional views for explaining the operation of the level measuring device of the marine tank according to a third exemplary embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

In order to clearly describe the present invention, parts irrelevant to the description are omitted, and like reference numerals designate like elements throughout the specification.

In addition, since the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of description, the present invention is not necessarily limited to those shown in the drawings, and is shown by enlarging the thickness in order to clearly express various parts and regions. It was.

1 is a view schematically showing an apparatus for measuring a level of a marine tank according to a first exemplary embodiment of the present invention, Figure 2 is a specific level measuring apparatus of a marine tank according to a first exemplary embodiment of the present invention It is a cross-sectional block diagram shown by the figure.

Referring to the drawings, the level measuring device 100 according to an exemplary embodiment of the present invention is applied to a tank 1 for storing fluid in all ships such as a general ship or a special ship.

The tank 1 may be, for example, a ballast tank (ba1last tank) for minimizing the fluctuation of the center of gravity of the ship, a seawater tank for the safe operation of the vessel, an oil tank for storing cargo oil (cargo oil) and the like. .

However, hereinafter, a tank 1 having a plurality of storage spaces for storing sea water will be described as an example, and sea water or oil stored in the tank 1 will be referred to as a "storage fluid" for convenience.

Here, the tank (1) is installed in a plurality of symmetrical structures on the left and right sides relative to the upper deck surface (3) of the ship, the storage fluid in the lower compartment (room: 5) below the upper deck surface (3) A plurality of storage spaces for storing the partition is formed through the partition (7) structure.

In this case, it will be obvious that the reinforcing member 9 is installed in each storage space in the horizontal direction in order to prevent the tank 1 from being deformed or damaged by hydraulic pressure or external force.

The level measuring device 100 according to an exemplary embodiment of the present invention is a structure that can measure the level of the storage fluid contained in each storage space of the tank 1, and to allow air to enter and discharge the storage space Is done.

That is, the present embodiment is based on a structure capable of measuring the level of the storage fluid contained in the storage space of the tank 1, when the storage fluid is filled into the storage space to discharge air from the storage space, When the storage fluid is discharged from the present invention provides a level measuring device 100 for both level measurement and aeration so that air can be introduced into the storage space.

To this end, the level measuring device 100 of the marine tank according to an exemplary embodiment of the present invention basically comprises a level measuring pipe 10, a vent 30, a level measuring unit 70 If this is described for each configuration as follows.

In this embodiment, the level measuring pipe 10 (commonly known in the art as a "sounding pipe") is provided as a single number in each storage space of the tank 1, the storage contained in each storage space. An internal passage (pipe) is formed as a level measurement of the fluid and as an air inlet and outlet path to the storage space.

That is, the inner conduit of the level measuring pipe 10 consists of a leveling path for measuring the level of the storage fluid, and an air inlet / outlet path for introducing air into or out of the storage space.

Here, the level measuring pipe 10 is open in the upper and lower ends, disposed through the upper surface of the tank 1 in the direction of the height of the storage space, the upper portion passes through the compartment 5, the upper deck surface (3) It may be mounted to protrude upward.

This level measuring pipe 10 penetrates the upper surface of the tank 10 and is welded to the upper surface thereof, and passes through the upper deck surface 3 and is welded to the upper deck surface 3. 11) is included.

As shown in FIG. 3, the first conduit 11 includes a porous member 15 having a plurality of holes 13, and the porous member 15 has a reinforcing member 9 in the storage space. It is configured in a position close to the lower surface of the.

In this case, the porous member 15 is a mesh type member to which the inner passage of the first conduit 11 is connected, and the first plate 17 to which one side of the first conduit 11 is connected at the upper portion thereof. ) Is provided, and the lower plate is provided with a second plate 19 to which the other side of the first conduit 11 can be connected.

The porous member 15 forms a leveling path for measuring the level of the storage space in the first conduit 11, supplies air introduced through the first conduit 11 to the storage space, and the storage space. The internal air is discharged to the outside through the first conduit 11.

In this embodiment, the vent 30 (also commonly known in the art as an "air vent head") is the tank 1 through the first conduit 11 of the level measuring pipe 10. It is for introducing air into or out of the storage space.

The vent 30 is mounted on the upper end of the level measuring pipe 10, the second conduit 31 is coupled to the upper end of the first conduit 11, and is coupled to the upper end of the second conduit 31 It comprises a vent body 41.

The second conduit 31 is flanged to an upper end of the first conduit 11, the first flange 33a formed at the lower end of the second conduit 31, and the upper end of the first conduit 11. It is coupled through the formed second flange 12a.

Here, the first conduit 11 and the second conduit 31 may be flanged by a bolt (B) and a nut (N) fastened to each other through the bolt holes formed in each of the flanges (12a, 33a). have.

The vent body 41 forms an inlet and outlet passage of air and is flanged to the upper end of the second conduit 31, as shown in FIGS. 4A and 4B, which is connected to the second conduit 31. An air inlet 45 connected to the furnace 43, an air passage 43, an intermediate passage 47 formed between the air passage 43 and the air outlet 45, and an intermediate passage 47. It comprises a float 51 disposed in the.

The aeration passage 43 forms an air flow (inflow and outflow stream of air), which is formed inside the aeration body 41, and through the connection passage 44, with the intermediate passage 47 to be described later. Connected.

The air outlet inlet 45 is the inlet and outlet of the air through the second conduit 31 is formed on one side of the ventilating body 41, it is connected to the air induction unit 46 coupled to one side do.

In this case, the air outlet 45 and the air guide 46 are interconnected with the wire net 46a therebetween.

The intermediate passage 47 is formed as a space for interconnecting the connection passage 44 of the air passage 43 and the air induction portion 46 between the air passage 43 and the air outlet 45, the air vent body The space part can be formed through the partition wall 48 provided in 41 inside.

In the above, the floating body 51 is safety of life by blocking sea water or rain water from the outside of the ship enters the tank 1 through the air inlet 45 to prevent the ship from sinking or suddenly overturning when stranded. It will serve to promote

The floating body 51 is lifted or lowered by the fluid (sea water or rainwater outside the ship) flowing into the intermediate passage 47 through the air outlet 45, and the connection passage 44 of the air passage 43 is provided. It is made of a structure that can selectively open and close.

The float 51 is a rectangular steel float having a certain height and a sealed space formed therein, and is commonly referred to as "slider" in the art.

Here, the floating body 51 is installed to be slidable in the vertical direction through the guide bar 53 in the interior of the intermediate passage 47, the guide bar 53 is at the bottom surface of the intermediate passage 47 It is installed upright in the upward direction.

Accordingly, the floating body 51 is floated upward along the guide bar 53 by the fluid flowing into the intermediate passage 47 through the air outlet 45 and the connecting passage of the aeration passage 43 When the fluid is not introduced into the intermediate passage 47, the cylinder 44 is closed and is lowered by its own weight.

In the present embodiment, the level measuring unit 70 is for measuring the level of the storage fluid contained in the storage space of the tank 1 through the level measuring pipe 10.

The level measuring unit 70 is also commonly referred to as "sounding head" or "sounding level" in the art, and is integrally formed with the vent 30 as described above.

Here, the level measuring unit 70 is made of a structure that can open and close the level measuring pipe 10, specifically, in the open state of the level measuring pipe 10 to the internal conduit of the level measuring pipe 10 It is made of a structure that can insert a separate level measuring tape (T: see Fig. 5b below).

The level measuring tape (T) is of a roll type, the water level is introduced to the bottom of the storage space of the tank (1) through the inner pipe of the level measuring pipe 10 by connecting the weight (W) of a predetermined weight at the end It's a leveler.

Since the roll-type level measuring tape T is made as a water level leveler known in the art, more detailed description of the configuration will be omitted herein.

The level measuring unit 70 as described above has a third conduit 71 integrally coupled to the second conduit 31 of the vent section 30, and a cover 74 detachable to an upper end of the third conduit 71. It is made to include.

The third conduit 71 is a pipe, and is coupled to the coupling part 35 provided in the second conduit 31. The coupling part 35 is integrally protruded from the outer circumferential surface of the second conduit 31 as a coupling port connected to the inner passage of the second conduit 31.

Here, the coupling part 35 is disposed to be inclined at a predetermined angle (about 30 degrees) with respect to the vertical direction of the second conduit 31, the first flange 37 is formed on the upper end of the coupling part 35 is have.

Meanwhile, the third conduit 71 is flanged to the first flange 37 of the coupling part 35, and a second flange corresponding to the first flange 37 is formed at the lower end of the third conduit 71. 72 is formed.

Therefore, the coupling part 35 and the third conduit 71 may be flanged by bolts B and nuts N which are fastened to each other through bolt holes formed in the flanges 37 and 72, respectively. .

And, as mentioned in the upper end of the third conduit 71, the cover 74 as a cap that can block the inner passage of the third conduit 71 is provided detachably.

The cover 74 is coupled to the upper end of the third conduit 71 or detachably provided from the upper end of the third conduit 71 so as to block the upper end of the third conduit 71 through the metal wire 75. It may be connected to the body of the third conduit 71.

Hereinafter, an operation of the apparatus 100 for measuring a level of a marine tank according to the first exemplary embodiment of the present invention configured as described above will be described in detail with reference to the drawings and the accompanying drawings.

5A and 5B are views for explaining the operation of the level measuring device of the marine tank according to the first exemplary embodiment of the present invention.

First, referring to FIG. 5A, in the present embodiment, when a storage fluid, for example, seawater or oil, is filled into the storage space of the tank 1, the air inside the storage space may be filled with the porous member ( 15 is discharged into the inner passage of the first conduit 11, and flows into the aeration passage 43 of the ventilation body 41 through the second conduit 31 of the vent (30).

This exhaust air is introduced into the intermediate passage 47 through the connecting passage 44 of the air passage 43, and is discharged to the outside through the air outlet 45 in the intermediate passage 47. Here, the cover 74 of the level measuring unit 70 is in a screw coupled state to the upper end of the third conduit 71.

On the other hand, when the storage fluid contained in the storage space of the tank 1 is discharged from the storage space, the outside air is introduced into the intermediate passage 47 through the air outlet inlet 45 of the ventilating body 41, In the intermediate passage 47 is introduced into the second conduit 31 through the air passage 43.

In addition, the inflow air is introduced into the inner passage of the first conduit 11, and is introduced into the storage space of the tank 1 through the porous member 15 of the level measuring pipe 10.

Here, the floating body 51 inside the ventilation body 41 is lowered by its own weight while being supported by the guide bar 53 in the intermediate passage 47.

In this state, when fluid such as seawater or rainwater outside the ship is introduced into the intermediate passage 47 through the air outlet 45 of the ventilating body 41, the floating body 51 is guided by the fluid. It floats upward along the bar 53 and closes the connecting passage 44 of the aeration passage 43 (see FIGS. 4A and 4B).

Therefore, in the present embodiment, seawater or rainwater outside the vessel enters the tank 1 through the air inlet 45 and prevents the ship from sinking or abruptly overturns when stranded. It becomes possible.

On the other hand, hereinafter, an example of measuring the level and the remaining capacity of the storage fluid contained in the storage space of the tank 1 using the apparatus 100 will be described with reference to FIG. 5B.

First, the operator opens the cover 74 of the level measuring part 70 to open the internal passage of the 3rd conduit 71.

In this state, the level measuring tape T, to which the weight W is connected, is passed through the second conduit 31 of the vent 30 through the inner passage of the third conduit 71. 1 Insert into the pipe (11).

Therefore, in the present embodiment, the weight W is taken out of the first conduit 11 while the weight W is in contact with the bottom surface of the tank 1 storage space, and then the position at which the storage fluid is buried is referred to. The level and the remaining capacity of the storage fluid contained in the storage space of the tank 1 are measured in comparison with the level measurement table.

Then, in the state where the level measurement of the storage fluid to the storage space of the tank 1 is completed as described above, the operator closes the inner passage of the third conduit 71 through the cover 74.

As described above, according to the level measuring device 100 of the marine tank according to the first exemplary embodiment of the present invention, the level measuring unit 70 for measuring the level of the storage fluid contained in the storage space of the tank 1 and , Integrally constitutes a vent 30 that allows air to flow into and out of the storage space.

Therefore, in the present embodiment, the prior art that the level measuring means for measuring the level of the storage fluid contained in the storage space of the tank 1, and the air inlet and outlet means for introducing and discharging air to the storage space are provided separately; In contrast, since the level measuring unit 70 and the venting unit 30 are integrally formed, it is expected that the construction cost of the ship can be reduced by reducing ancillary materials such as pipes and the like.

FIG. 6 is a cross-sectional view illustrating an apparatus for measuring a level of a marine tank according to a second exemplary embodiment of the present invention. FIG.

Referring to the drawings, the level measuring device 200 of the marine tank according to the second exemplary embodiment of the present invention is based on the structure of the previous embodiment, while the air flow unit 130, the floating body 151 is formed in the form of a ball Can be configured.

Here, the vent 130 includes a second conduit 131 coupled to the upper end of the first conduit 111 and a vent body 141 coupled to the upper end of the second conduit 131.

In this case, the ventilation body 141 is an aeration passage 143 connected to the second conduit 131, an air outlet 145 connected to the aeration passage 143, an aeration passage 143, and an air outlet It comprises an intermediate passage 147 formed between the inlet 145 and on which the float 151 mentioned above is disposed.

In the present embodiment, the floating body 151 is formed as a hollow spherical ball shape, floating by the fluid (sea water or rainwater outside the ship) flowing into the intermediate passage 147 through the air outlet 145. Or descending, it is made of a structure that can selectively open and close the connection passage 144 of the air passage (143).

Therefore, the floating body 151 may rise in the upward direction introduced into the intermediate passage 147 through the air outlet 145 and close the connection passage 144 of the air passage 143.

Since the rest of the configuration and operation of the level measuring device 200 of the marine tank according to the second exemplary embodiment of the present invention as described above is the same as in the previous embodiment, a more detailed description will be omitted.

FIG. 7 is a view schematically illustrating an apparatus for measuring a level of a marine tank according to a third exemplary embodiment of the present invention, and FIG. 8 specifically illustrates an apparatus for measuring a level of a marine tank according to a third exemplary embodiment of the present invention. It is a cross-sectional block diagram shown by the figure.

Referring to the drawings, the level measuring device 300 according to an exemplary embodiment of the present invention is a tank 1 for storing fluid (hereinafter referred to as "sea water" for clarity) in a vessel, for example, a center of gravity of a vessel. It is applied to the ballast tank (ba1last tank) to minimize this fluctuation, the seawater tank for the safe operation of the vessel.

However, hereinafter, the tank 1 will be described with an example of a ballast tank having a plurality of storage spaces for storing seawater as shown in the drawing.

The level measuring device 300 according to an exemplary embodiment of the present invention basically measures the level of seawater contained in the storage space of the tank 1, and injects air into the storage space to bubble the seawater. It has a structure that can be generated.

That is, the present embodiment is based on the structure that can measure the level of seawater contained in the storage space of the tank (1), by injecting air into the storage space to generate a bubble in the seawater to prevent the surface icing of the seawater It provides a multi-function level measuring device 300 so as to.

To this end, the level measuring device 300 of the marine tank according to an exemplary embodiment of the present invention basically comprises a level measuring pipe 310, a level measuring unit 320, and an air injection unit 370 If this is described for each configuration as follows.

In this embodiment, the level measuring pipe 310 (commonly known in the art as a "sounding pipe") is provided as a single number in each storage space of the tank 1, so that the water level measurement of each storage space and An internal passage (pipe) is formed as a path for air injection into the storage space.

That is, the inner pipe of the level measuring pipe 310 is composed of a leveling path for measuring the water level of each storage space, and an air injection path for injecting air into the storage space.

Here, the level measuring pipe 310 may be mounted to the upper and lower ends are open, penetrate the upper surface of the tank 1 in the height direction of the storage space, and the upper portion thereof protrudes onto the deck.

In the present embodiment, the level measuring unit 320 is for measuring the level and remaining capacity of the seawater contained in each storage space of the tank 1 using the level measuring pipe 310, the upper end of the level measuring pipe 310 And a sounding head 330, an opening and closing member 340, a lever member 350, and a foot bar 360.

Here, the level measuring unit 320 is also commonly referred to in the art as a "sounding level", and has a structure capable of opening and closing the level measuring pipe 310, specifically, opening the level measuring pipe 310. In this state, a separate level measuring tape (T: see FIG. 11) can be introduced into the internal pipe of the level measuring pipe 310.

Since the level measurement tape T and the level measurement using the level measurement tape T have been described in the first embodiment, a detailed description thereof will be omitted.

In the present embodiment, the sounding head 330 is in the form of a hollow pipe connected to the inner conduit of the level measuring pipe 310, and is coupled to the upper end of the level measuring pipe 310. And the upper end of the sounding head 330 is provided with a detachable cap 331 that can block the hollow.

The cap 331 is coupled to the upper end of the sounding head 330 through the set screw to prevent the hollow upper end of the sounding head 330, or is provided detachably from the upper end of the bar, the metal wire 333 It may be connected to the body of the sounding head 330 through.

In addition, the body of the sounding head 330 is formed with a coupling portion 335 for mounting the air injection portion 370 to be described later.

The coupling portion 335 is a coupling port connected to the inner passage of the sounding head 330 and is integrally formed to protrude from the outer circumferential surface of the sounding head 330, and the protruding end of the coupling portion 335 First flange 337 is formed.

In this embodiment, the opening and closing member 340 is for selectively opening and closing the inner passage of the sounding head 330, is rotatably mounted to the inner passage.

9 and 10, the opening and closing member 340 is formed as a rotating body 341 having an outer diameter corresponding to the inner diameter of the sounding head 330, the rotating body 341 is formed on both sides thereof The sounding head 330 is rotatably supported about the rotation shaft 343.

Here, the opening and closing member 340 has a through hole 345 which can be selectively connected to the inner passage of the sounding head 330 in the rotating body 341. The through hole 345 selectively opens the inner passage of the sounding head 330 as the rotation of the rotating body 341.

That is, when the rotating body 341 rotates in one direction, the opening and closing member 340 closes the inner passage while the through hole 345 is positioned in the vertical direction of the inner passage of the sounding head 330 (FIG. 9).

In addition, when the rotating body 341 rotates in the other direction, the opening and closing member 340 opens the inner passage while the through hole 345 is connected to the inner passage of the sounding head 330 (FIG. 10). Reference).

In this embodiment, the lever member 350 is for substantially rotating the opening and closing member 340, is connected to the opening and closing member 340 on the outside of the sounding head 330, one side of the rotating body 341 It is installed to be connected to the rotary shaft (343).

The lever member 350 is formed in the form of a bar (bar) is fixed to one side of the rotating shaft 343 of the rotating body 341, one end may be defined as a fixed end, the other end may be defined as a free end Can be.

Here, a weight body 351 having a predetermined weight is formed at the free end of the lever member 350. The weight 351 rotates the lever member 350 downward as its own weight.

That is, the lever member 350 is rotated in an upward direction by an external force, and when the external force is removed, the lever member 350 is rotated downward by the weight of the weight body 351.

In the present embodiment, the foot bar 360 is for rotating the lever member 350 in an upward direction through a foot-push of the operator. The foot bar 360 is rotatably installed on the outer circumferential surface of the sounding head 330, and is coupled to the lever member 350.

The foot bar 360 is rotatably coupled to the rotation center axis 361 formed on the outer circumferential surface of the sounding head 330 in the vertical direction, and the lever member 350 through the connecting rod 363 disposed in the vertical direction. And link is combined.

The foot bar 360 is disposed with respect to the rotation center axis 361, the length between the rotation center axis 361 and one end is shorter than the length between the other one end, one end is the connecting rod 363 It may be defined as a connection end connected to, and the other end may be defined as a free end.

In this case, a pedal 365 for enabling a foot-push of an operator is installed at a free end of the foot bar 360, and a lower end of the connecting rod 363 is hinged through a hinge pin HP. . The upper end of the connecting rod 363 is hinged to the lever member 350 through a hinge pin HP.

Therefore, when the operator presses the pedal 365, the foot bar 360 is rotated to the lower direction about the rotation center axis 361, the lever member 350 is a foot bar (3) through the connecting rod (363) Since it is linked with the 360, it is rotated in the upward direction by the foot bar (360).

When the operator takes his foot off the pedal 365, the foot bar 360 is rotated upward by the lever member 350 that rotates downward as the weight of the weight 351.

In the present embodiment, the air inlet 370 is a level measuring pipe 310 connected to the inner passage in a state in which the inner passage of the sounding head 330 through the opening and closing member 340 mentioned above is closed. It is for injecting air into the storage space of the tank 1 through the inner conduit of.

The air injection unit 370 is configured integrally with the sounding head 330 of the level measuring unit 320, and is provided on the outer circumferential surface of the sounding head 330 on the opposite side of the foot bar 360 mentioned above. .

The air injection portion 370 includes a valve body 371 that is coupled to the coupling portion 335 of the sounding head 330 mentioned above.

The valve body 371 is composed of a valve body of a conventional structure for selectively opening and closing the port of the coupling portion 335, one end of the hose connecting member 375 as a connector connected to the air injection hose 373 The other side end is provided with the 2nd flange 377 couple | bonded with the 1st flange 337 of the coupling part 335. As shown in FIG.

That is, the valve body 371 is integrally mounted to the sounding head 330 by fastening the second flange 377 to the first flange 337 of the coupling portion 335 through a fastening member such as a bolt. .

Hereinafter, the operation of the level measuring device 300 of the marine tank according to the third exemplary embodiment of the present invention configured as described above will be described in detail with reference to the drawings and the accompanying drawings.

11 and 12 are cross-sectional views for explaining the operation of the level measuring device of the marine tank according to a third embodiment of the present invention.

Referring to FIG. 11, below, an example of measuring the level and remaining capacity of seawater contained in each storage space of the tank 1 using the apparatus 300 will be described.

First, the worker opens the cap 331 of the sounding head 330 (indicated by a dashed line in the drawing) to open the inner passage of the sounding head 330.

Here, the lever member 350 is rotated downward as indicated by the solid line in FIG. 8, and thus the opening and closing member 340 is formed as the through hole (FIG. 9) as the lever member 350 is rotated. 345 is in a direction perpendicular to the inner passage of sounding head 330 and is in a closed state.

And the valve body 371 of the air injection part 370 is in the state which closed the port of the coupling part 335. As shown in FIG.

In this state, when the operator presses the pedal 365 of the foot bar 360, the foot bar 360 rotates downward about the rotation center axis 361 as indicated by the dashed-dotted line in FIG. do.

Then, since the lever member 350 is linked with the foot bar 360 through the connecting rod 363, the lever member 350 rotates upward by the foot bar 360 as indicated by the dashed-dotted line in FIG. 8. .

Thus, as the lever member 350 rotates upward, the opening and closing member 340 is connected to the inner passage of the sounding head 330 while the through hole 345 is connected to the inner passage and the level measuring pipe 310. It will open the inner conduit.

After the above process, the operator inserts the level measuring tape T, to which the weight W is connected, into the inner conduit of the level measuring pipe 310 through the inner passage of the sounding head 330.

Thus, in the present embodiment, the weight measuring tape T is taken out of the level measuring pipe 310 while the weight W is in contact with the bottom surface of the tank 1 storage space, and then the reference level measurement is performed at the position where the seawater is buried. Compared with the table, the level and the remaining capacity of the seawater contained in each storage space of the tank 1 are measured.

Then, in the state where the seawater level measurement for the storage space of the tank 1 is completed as described above, when the operator takes off the pedal 365 of the foot bar 360, the lever member 350 is as shown in FIG. As described above, the weight bar 351 rotates downward as its own weight, and the foot bar 360 rotates upward.

As a result, as the lever member 350 rotates in the downward direction, the opening / closing member 340 opens the through-hole 345 in the vertical direction of the inner passage of the sounding head 330 as shown in FIG. 9. Will be closed.

Meanwhile, hereinafter, an example of injecting air into each of the storage spaces of the tank 1 using the apparatus 300 will be described. The valve body 371 is operated to open the port of the coupling portion 335.

Then, in this embodiment, the air supplied from the compressor (not shown in the figure) through the air injection hose 373 through the coupling portion 335 of the sounding head 330 through the inner conduit of the level measuring pipe 310 To be injected.

Thus, in the present embodiment, by injecting air into each storage space of the tank 1 through the air inlet 370, bubbles are generated in the seawater contained in the storage space, thereby the seawater of the tank (1) It is possible to effectively prevent contact icing.

As described so far, according to the level measuring device 300 of the marine tank according to the third exemplary embodiment of the present invention, the level measuring unit 320 for measuring the level of seawater contained in the storage space of the tank 1 And an air injector 370 capable of injecting air into the level measuring pipe 310 integrally with a single level measuring pipe 310.

Therefore, in the present embodiment, unlike the prior art in which the level and the remaining capacity of the seawater contained in each storage space of the tank 1 through each pipe are measured and air is injected into the storage space, a single level measuring pipe 310 Since it is possible to measure the level of each storage space of the tank (1) and to inject the air as), it is expected that the effect of reducing the amount of pipe installation and the arrangement space of the pipe to the tank (1).

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications and changes can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. Naturally, it belongs to the scope of the invention.

10, 310 ... level measuring pipe 11 ... first pipe
13 ... holes 15 ... porous members
17 ... first plate 19 ... second plate
30, 130 ... vent 31 ... second duct
35 ... connection 41, 141 ... ventilation body
43 ... By air vent 45 ... Air outlet
46 ... air guide 47 ... intermediate passage
51,151 ... Float 53 ... Guide Bar
70, 320 ... Level measuring part 71 ... Third channel
74 ... cover 75 ... metal wire
330 ... sounding head 331 ... cap
340 ... closing member 350 ... lever member
360 ... footbar 365 ... pedal
370 ... air inlet 371 ... valve body
373 ... Air injection hose 375 ... Connecting element

Claims (17)

A level measuring device constituted by a marine tank that partitions a plurality of storage spaces,
A level measuring pipe passing through an upper surface of the tank and disposed in the storage space;
A ventilation unit mounted to the level measuring pipe to allow air to be introduced into and discharged from the storage space; And
A level measuring unit integrally configured with the venting unit to measure the level of the storage fluid contained in the storage space through the level measuring pipe
Level measuring device of the marine tank comprising a.
The method according to claim 1,
And the level measuring pipe has an inner conduit consisting of a leveling path and an air inlet / outlet path of the storage fluid.
The method according to claim 1,
The level measurement pipe,
A first conduit penetrating the upper surface of the tank and coupled to the upper surface;
An apparatus for measuring the level of a marine tank, comprising a porous member having a plurality of holes formed in the first conduit inside the storage space.
The method of claim 3,
An upper end of the first conduit penetrates the deck surface and is coupled to the deck surface, apparatus for measuring the level of the marine tank.
The method of claim 3,
The venting unit,
A second conduit coupled to an upper end of the first conduit,
And a vent body coupled to an upper end of the second conduit to form an inlet and outlet passage of air, the apparatus for measuring a level of a marine tank.
The method of claim 5,
The vent body,
An air passage connected to the second conduit and forming a flow of air;
An air outlet inlet and connected to the aeration passage through which air is introduced and discharged;
An intermediate passage formed between the vent and the air outlet;
And a floating body disposed in the intermediate passage and floating by the fluid flowing into the intermediate passage through the air outlet.
The method of claim 6,
The float is,
A level measuring device for a marine tank, which is installed to be slidable in the vertical direction through the guide bar to selectively open and close the aeration passage.
The method of claim 6,
The float is,
A device for measuring the level of the tank for ships made of a ball shape that can selectively open and close the air passage.
The method according to any one of claims 5 to 8,
The level measuring unit,
A third pipe line integrally coupled to the second pipe line,
And a cover detachably provided at an upper end of the third conduit.
A level measuring device constituted by a marine tank that partitions a plurality of storage spaces,
A level measuring pipe passing through an upper surface of the tank and disposed in the storage space,
And a level measuring device of a marine tank for measuring the level of the storage fluid contained in the storage space through the level measuring pipe and injecting air into the storage space.
The method of claim 10,
And the level measuring pipe has an inner conduit consisting of a leveling path and an air injection path of the storage fluid.
The method of claim 10,
A level measuring unit mounted to an upper end of the level measuring pipe to measure the level of the storage fluid; And
And an air injection unit integrally configured with the level measurement unit for injecting air into the storage space through the level measurement pipe.
The method of claim 12,
The level measuring unit,
A sounding head coupled to the level measuring pipe with a removable cover at the top;
The leveling device of the marine tank which comprises the said air injection part integrally with the sounding head.
The method of claim 13,
The sounding head is
A unit for measuring the level of the marine tank, which is integrally formed on the outer circumferential surface coupled to the inner passage for mounting the air inlet.
The method of claim 13,
The level measuring unit,
An opening and closing member rotatably installed in the inner passage of the sounding head and selectively opening and closing the inner passage;
A lever member having a weight having a predetermined weight and connected to the opening / closing member at an outer side of the sounding head; And
And a foot bar rotatably installed on an outer circumferential surface of the sounding head, the foot bar being linked to the lever member.
The method of claim 15,
The foot bar is,
Rotatably mounted on an outer circumferential surface of the sounding head on the opposite side of the air inlet,
A pedal is provided at one end, and the other end is coupled to the lever member through a connecting rod, the level tank of the marine tank.
The method according to any one of claims 13 to 16,
The air injection unit,
A connecting member connected to the air injection hose,
And a valve body coupled to the sounding head via a flange.

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