KR20200044400A - Flow control valve and Washing water supply system using the same - Google Patents

Abstract

The present invention relates to a flow control valve capable of precision control and a washing water supply system for a tank washing apparatus using the same. The flow control valve comprises: a valve body in which a flow path is formed to transfer a fluid; a body sheet in which a flow hole is formed to transfer the fluid on the flow path in the valve body; and a disk arranged in the valve body to open and close the flow hole by coming in contact with or being released from the body sheet. The disk includes: a body unit arranged to open and close the flow hole by coming in contact with or being released from the body sheet; a protruding unit formed to protrude to have a certain height in the upward direction of the body unit; and sectional pieces formed on both sides of the protruding unit to protrude in an upward direction around an outer circumferential part of the body unit. The washing water supply system for a tank washing apparatus comprises: a washing module unit which includes a nozzle entering the inside of the tank; a heat exchange unit which heats the washing water supplied from the outside; a steam supply unit which supplies steam into the heat exchange unit; a steam control valve which is formed on the steam supply unit to control the amount of steam supplied into the heat exchange unit; a water level control unit which controls the water level of the condensate where the steam supplied into the heat exchange unit is condensed; and a water level control valve installed on a path, through which the condensate is discharged, to be opened/closed by a control command of the water level control unit. According to the present invention, at least one of the steam control valve and the water level control valve is configured with the flow control valve capable of precision control which is mentioned above.

Description

Flow control valve and washing water supply system using the same}

The present invention relates to a flow control valve and a cleaning water supply system of a tank washing apparatus to which the same is applied, and more specifically, a flow control valve provided to enable precise control of the flow rate and a liquid, solid or powder form therein by applying the same. It relates to a washing water supply system of the tank washing apparatus for supplying washing water for washing the tank containing the cargo.

In general, tanks used for various tankers, that is, oil tanks, chemical tanks, product carriers, bulk carriers, etc., unload cargo contained in the tank and then wash the inside of the tank.

In addition, tanks that are provided on land plants, cargo ships, and refineries and contain raw materials are required to be periodically cleaned.

However, washing the inside of such a large tank can be considered a very difficult and dangerous operation.

Accordingly, the washing of the inside of the large tank is basically performed using a tank washing device, and is configured to wash the inside of the tank by spraying the washing water into the tank.

1 is a configuration diagram showing a tank cleaning apparatus according to the prior art and its operating relationship.

As shown, the conventional tank washing apparatus 20 includes a control unit 22, a washing water inlet pipe 24, a connecting pipe 28, and a nozzle 30. Here, the control unit 22 and the washing water inlet pipe 24 are disposed outside the tank 10, a part of the connection pipe 28 and the nozzle 30 are disposed inside the tank 10, the connection pipe 28 ) On one side is provided with a bracket 26 fixedly coupled to one side wall of the tank 10, and the nozzle 30 jets the inflowing washing water into the inner surface of the tank 10 in a jet injection type. It is installed in a structure that can be rotated with respect to the end of the connecting pipe (28).

Therefore, when the operator turns on the control unit 22, the washing water is introduced through the washing water inlet pipe 26, and the introduced washing water is supplied to the nozzle 30 through the connecting pipe 28, and accordingly The nozzle 30 is rotated to clean the inner surface of the oil tank 10 by spraying washing water by a jet injection method.

At this time, a malfunction or malfunction of the valve or the like provided on the system for supplying the washing water of the tank washing device occurs, or there is a problem that the washing cannot be properly performed because the valve is not precisely controlled.

Korean Registered Patent No. 10-1764709

An object of the present invention is to provide a flow control valve that enables precise control of the flow rate, as described above.

Another object of the present invention is to provide a washing water supply system for a tank washing apparatus that enables efficient heating of washing water.

Another object of the present invention is to provide a washing water supply system of a tank washing apparatus to improve the tank washing efficiency and stability.

To this end, the flow control valve capable of precisely controlling the present invention includes a valve body in which a flow path through which fluid is transferred is formed, a body seat in which a flow hole through which fluid is transferred is formed, and the valve in the flow path in the valve body. A flow control valve including a disc disposed in the body and provided to open and close the flow hole as it contacts or leaves the body seat, and the disc is provided to open and close the flow hole as it contacts or leaves the body sheet. It is characterized in that it comprises a body portion, a protrusion formed to protrude to have a predetermined height in the upper direction of the body portion, and a divided piece formed on both sides of the protrusion, and protruding upwardly along the outer circumference of the body portion do.

At this time, a plurality of protrusions are formed along the outer circumference of the body portion, and a plurality of protrusions are spaced apart from each other, and the divided pieces are symmetrically formed on both sides of the protrusions, and are disposed to face each other in a space between adjacent protrusions. The space between the two divided pieces forms a fluid flow space, and the divided pieces are configured such that the horizontal width gradually decreases from the upper side to the lower side, and the horizontal width gradually increases from the upper side to the lower side. It is characterized by being.

In addition, the split piece is configured to gradually increase the width in the horizontal direction from the upper side to the lower side, and is characterized in that the increasing width is gradually reduced to a predetermined ratio.

In addition, the divided piece is characterized in that it is formed to have a vertical height less than the maximum vertical distance between the disc body portion and the body seat when the valve flow path is 100% open.

On the other hand, the cleaning water supply system of the tank washing apparatus according to the present invention includes a cleaning module unit including a nozzle entering the inside of the tank, a heat exchange unit heating the cleaning water supplied from the outside, and a steam supply unit supplying steam into the heat exchange unit , A steam control valve that is formed on the steam supply unit and adjusts the amount of steam supplied into the heat exchange unit, a water level control unit that controls the water level of condensate condensed by the steam supplied into the heat exchange unit, and the condensate It is installed on the discharge path, and includes a water level control valve that is opened and closed according to a control command of the water level control unit, and at least one of the steam control valve and the water level control valve is a flow control valve capable of precisely controlling the above-mentioned. It is characterized by being made.

The flow control valve capable of precise control according to the present invention includes a disc provided to open and close the flow path as it comes into contact with or deviates from the body seat formed on the flow path in the valve body to control the opening / closing degree of the valve. A flow control valve is driven, including a body part provided to be in contact with or disengagement from, a protrusion part protruding upward from the body part, and a split piece formed on both sides of the protrusion part and protruding upwardly along an outer circumference of the body part. As it becomes possible, the flow rate is controlled, but the flow rate is fine and precise.

In addition, the cleaning water supply system of the tank washing apparatus according to the present invention, as the water level control valve provided on the system is configured as a flow control valve capable of precise control configured as described above, the water level inside the heat exchange unit is more precise. Since it can be controlled, it is possible to efficiently heat the washing water.

In addition, the washing water supply system of the tank washing apparatus according to the present invention, as the stem control valve provided on the system is configured as a flow control valve capable of precise control configured as described above, is supplied from the heat exchange unit to the cleaning module unit It is possible to more precisely control the temperature of the washing water, there is an effect that can improve the tank cleaning efficiency and stability.

1 is a configuration diagram showing a tank cleaning apparatus according to the prior art and its operating relationship.
2 is a view showing the configuration of the cleaning water supply system of the tank washing apparatus according to an embodiment of the present invention.
3 is a view showing a disk structure of a flow control valve according to the prior art.
Figure 4 is a perspective view showing a disk flow control valve according to an embodiment of the present invention.
5 is a view showing a disk structure of a flow control valve according to an embodiment of the present invention.
6 is a graph showing a comparison of a flow rate value according to a disk structure of a flow rate control valve according to the prior art and a flow rate control valve according to an embodiment of the present invention.
7 is a view showing a graph showing a flow rate value according to the disk structure of the flow control valve according to an embodiment of the present invention and another embodiment, respectively.

The foregoing and additional aspects of the present invention will become more apparent through preferred embodiments described with reference to the accompanying drawings. Hereinafter, with reference to the accompanying drawings to be easily understood and reproduced by those skilled in the art through the embodiments of the present invention will be described in detail.

2 is a view showing the configuration of the cleaning water supply system of the tank washing apparatus according to an embodiment of the present invention.

2, the cleaning water supply system of the tank washing apparatus proposed in the present invention is large, the cleaning module unit 100, the heat exchange unit 200, the steam supply unit 300, the steam control valve 400, the temperature sensor 500, a temperature control unit 600, a water level control unit 700 and a water level control valve 800.

First, the cleaning module unit 100 includes a nozzle 110 that enters into the tank 10, the pipeline is excreted, and vertical piping from the top of the tank 10 enters the tank 10, A nozzle is installed at the end.

As the high-pressure washing water is sprayed through the nozzle, foreign substances attached to the inner wall of the tank are cleaned. Preferably, the nozzle is capable of moving up and down, and is configured to be rotated so that it can be evenly cleaned from the bottom of the large tank to the top.

Next, the heat exchange unit 200 is for supplying the washing water heated to the cleaning module unit 100, the heat exchange unit 200 is configured to be managed so that the condensed water condensed with steam maintains an appropriate level. At this time, since the residue having oil may be attached to the inner wall of the tank, in this case, washing may not be smooth by simply spraying with high pressure, and in order to improve the washing efficiency, it is necessary to select an appropriate washing water, especially the temperature of the washing water. It needs to be managed within an appropriate range. The temperature of the washing water may vary depending on what kind of material remains in the raw material tank 10, and the higher the temperature of the washing water will help in washing, but it is necessary to determine an appropriate temperature in consideration of energy efficiency and safety. something to do.

Next, the steam supply unit 300 supplies steam to the interior of the heat exchange unit 200 for supplying the washing water heated to the cleaning module unit 100, and the cleaning module unit (from the outside through the heat exchange unit 200) It is configured to heat the washing water supplied to 100).

Next, the steam control valve 400 is for controlling the steam supply from the steam supply unit 300 to the heat exchange unit 200 side, is provided between the steam supply unit 300 and the heat exchange unit 200, the steam supply unit ( It is configured to control the temperature, pressure, amount, etc. of the steam supplied from the 300 to the heat exchange unit 200.

At this time, the temperature sensor 500 is for measuring the temperature of the washing water heated in the heat exchange unit 200 and supplied to the cleaning module unit 100, between the heat exchange unit 200 and the cleaning module unit 100 It is provided, it is configured to detect the temperature of the washing water is heated in the heat exchange unit 200 and transferred to the cleaning module unit 100 side.

In addition, the temperature control unit 600 is for controlling the temperature of the washing water heated in the heat exchange unit 200 and supplied to the washing module unit 100, and the temperature of the washing water measured by the temperature sensor 500 It is configured to control the operation of the steam control valve 400 that controls the supply of steam from the steam supply unit 300 to the heat exchange unit 200 by comparing the preset temperature.

Next, the water level control unit 700, the condensed water condensed inside the heat exchange unit 200 for the efficient use of energy, it is preferable to maintain a constant water level, so the steam supplied into the heat exchange unit 200 accordingly It is provided to control the water level of the condensed condensate, including means for measuring the water level of the condensed water condensed inside the heat exchange unit 200, and driving the water level control valve 800 to be described later according to the measured water level It is configured to control the water level of the condensate condensed steam is supplied into the heat exchange unit 200 by controlling the.

Next, the water level control valve 800 is driven to open and close according to the information on the water level of the condensate provided from the water level control unit 700, and, if necessary, is driven to open the water level control valve 800, the heat exchange unit 200 ) The condensate stored therein flows out, so that the heat exchange unit 200 can maintain a constant water level.

On the other hand, in the cleaning water supply system of the tank washing apparatus according to the present invention configured as described above, the steam control valve 400 and the water level control valve 800 are flow control valves for controlling the flow of fluid such as steam and condensate ( 900), such a flow control valve 900 must be configured to be able to precisely control the flow rate, thus, the flow rate capable of precise control applied to the steam control valve 400 and the water level control valve 800 The control valve 900 will be described in detail below.

First, the flow control valve 900 capable of precise control according to the present invention includes a valve body (not shown) in which a flow path through which fluid is transported is formed, and a flow hole through which fluid is transferred on a flow path in the valve body. It includes a body seat (S) and a disk disposed in the valve body and provided to control the degree of opening and closing of the flow path by opening and closing the flow hole as it contacts or leaves the body seat (S). The disc of the valve 900 will be described in comparison with the prior art.

3 is a view showing a disk structure of a flow control valve according to the prior art.

As shown in Figure 3, the disc of the flow control valve 900 according to the prior art is provided to open and close the flow hole of the body seat (S) as it comes into contact or departure from the body seat (S), the opening and closing degree of the valve flow path It includes a body portion 910 for controlling the, and the protrusion 920 is formed to protrude to have a predetermined height above the body portion 910, the protrusion 920 is formed in a plurality along the outer circumference of the body portion 910 And, the plurality of protrusions 920 are configured to be spaced apart from each other.

On the other hand, looking at the opening and closing process of the flow path, the upper outer circumferential portion of the disc body portion 910 and the lower portion of the body sheet S are in contact with the flow path closed, so that the flow path is gradually opened as the disc is gradually moved downward. The flow path is gradually closed as the disc gradually moves upward in the open path, and the degree of opening of the flow path is controlled according to the vertical distance between the lower portion of the disc body portion 910 and the body sheet S. Will be.

At this time, the space between adjacent protrusions 920 is to form a space through which the fluid flows, and the L line shown in FIG. 3 represents a line on the same horizontal line as the lower portion of the body seat S when the valve flow path is 100% open. The maximum opening degree is indicated, and the distance D0 is the maximum vertical distance between the disc body portion 910 and the lower portion of the body seat S when the valve flow path is 100% open, and the disc body portion 910 and the body seat S The maximum vertical distance (D0) between the lower portions, and region A represents the flow space (A) of the fluid formed between the adjacent protrusions (920) above the disc body portion (910) when the valve flow path is 100% open.

The flow control valve 900 according to the prior art configured as described above has a plurality of protrusions 920 as the disk structure is formed in the body portion 910, the disk is moved downward and the flow path is opened. As the flow space A of the fluid formed between the protrusions 920 is rapidly increased, the flow rate of the fluid transferred through the flow space A is also rapidly increased, so that precise control of the flow rate cannot be achieved.

4 is a perspective view showing a disk of a flow control valve 900 according to an embodiment of the present invention, and FIG. 5 is a view showing a disk structure of a flow control valve 900 according to an embodiment of the present invention.

The disk structure of the flow control valve 900 according to an embodiment of the present invention shown in FIGS. 4 and 5 is proposed to solve the disadvantages of the disk structure of the conventional flow control valve 900 as described above will be.

4 and 5, the disk structure of the flow control valve 900 according to an embodiment of the present invention is provided to open and close the flow hole of the body sheet S as it comes into contact with or deviates from the body sheet S The body portion 910 to control the opening and closing degree of the valve flow path, and the protruding portions 920 formed to protrude to have a predetermined height in the upper direction of the body portion 910, and the body portions on both sides of the protruding portion 920, respectively It includes a divided piece 930 protruding upwardly along the outer periphery of 910).

At this time, the body portion 910 is formed with a coupling hole 911 through which a stem portion providing a driving force to move the disc in the vertical direction is penetrated in the center, and a sealing seating portion protruding upward to have a predetermined height. It may include, the sealing seating portion is a portion that the sealing is in contact with the outer peripheral surface of the disk, is formed to have a predetermined height in the manufacturing method of the disk.

In addition, the split piece 930 is formed so that the flow control valve 900 according to an embodiment of the present invention can control the flow rate more precisely according to the opening and closing degree of the flow path, wherein the split piece 930 is a protrusion It is formed on both sides of the (920), it is formed protruding upwards along the outer circumference of the body portion (910).

At this time, a plurality of protrusions 920 are formed along the outer circumference of the body portion 910, the plurality of protrusions 920 are arranged to be spaced apart from each other, and the divided pieces 930 are symmetrical to both sides of the protrusion 920. Formed, the space between two divided pieces 930 disposed opposite to each other as a space between adjacent protrusions 920 forms a fluid flow space A.

In addition, the split piece 930 is configured such that the horizontal width gradually increases as it goes from the upper side to the lower side, so that the horizontal width gradually decreases as the flow space A of the fluid goes from the upper side to the lower side.

On the other hand, looking at the opening and closing process of the flow path, the upper outer circumferential portion of the disc body portion 910 and the lower portion of the body sheet S are in contact with the flow path closed, so that the flow path is gradually opened as the disc is gradually moved downward. The flow path is gradually closed as the disc gradually moves upward in the open path, and the degree of opening of the flow path is controlled according to the vertical distance between the lower portion of the disc body portion 910 and the body sheet S. And

At this time, as described above, according to the fluid control valve according to the present invention, as the split piece 930 is formed, the flow space A of the fluid is configured such that the horizontal width gradually decreases from the upper side to the lower side. The flow space (A) of the fluid is configured such that the width in the horizontal direction gradually increases from the lower side to the upper side, and as the vertical distance between the disk body portion 910 and the lower portion of the body sheet S gradually increases in the process of opening and closing the flow path, the fluid The flow space A of the fluid is also gradually increased, and as the vertical distance between the disk body portion 910 and the lower portion of the body sheet S is gradually decreased, the flow space A of the fluid is also gradually reduced, Since the flow rate of the fluid transferred through (A) can also be gradually increased or decreased, precise control of the flow rate is possible.

In addition, the split piece 930 may be configured to gradually increase in width in the horizontal direction from the upper side to the lower side, and in addition, the increasing width may be gradually reduced to a predetermined ratio. In this case, the fluid flow space (A) is The horizontal width gradually decreases from the upper side to the lower side, and the reduction width gradually decreases at a predetermined ratio. In other words, the horizontal width gradually increases as the fluid flow space A goes from the lower side to the upper side. It means that the increase width is gradually increased at a predetermined ratio.

At this time, as described above, according to the fluid control valve according to the present invention, as the split piece 930 is formed, as the vertical distance between the disk body portion 910 and the lower portion of the body sheet S gradually increases in the flow path opening process, The flow space (A) of the fluid is also gradually increased, and as the size of the increase is also increased, the flow space (A) is increased,

Conversely, as the vertical distance between the disk body portion 910 and the lower portion of the body sheet S gradually decreases during the flow path closing process, the flow space A of the fluid is also gradually reduced, and the size of the decrease is also reduced while the flow space A is reduced. ) Is reduced,

Since the flow rate of the fluid can be gradually increased or decreased according to the opening and closing of the valve, it is possible to precisely control the flow rate.

FIG. 6 is a graph comparing flow values according to the disk structure of the flow control valve 900 according to the prior art shown in FIGS. 3 and 5 and the flow control valve 900 according to an embodiment of the present invention. Referring to FIG. 6, the portion shown by the fast opening on the illustrated graph represents a case in which the disk structure according to the prior art illustrated in FIG. 3 is applied, and the portion shown by Equal percentage is the present invention illustrated in FIG. 5. It shows a case in which the disk structure of the flow control valve 900 according to an embodiment of the present invention is applied.

As shown in FIG. 6, when the disk of the flow control valve 900 is formed of a disk structure according to the prior art shown in FIG. 3, the flow rate is not controlled as the flow rate increases rapidly even if the valve flow path is slightly opened. can confirm.

On the other hand, when the disc of the flow control valve 900 is made of a disc structure according to an embodiment of the present invention shown in Figure 5, it can be seen that the flow rate is gradually increased as the valve flow path is opened,

In particular, when the opening degree of the valve flow path is between 0 and 50%, the disc of the flow control valve 900 is made of a disc structure according to an embodiment of the present invention, compared with the case where the disc structure according to the prior art is applied. It can be confirmed that the flow rate can be precisely controlled.

In addition, the disk structure of the flow control valve 900 according to an embodiment of the present invention is configured such that the horizontal width of the split piece 930 gradually increases from the upper side to the lower side, and the increasing width gradually decreases at a predetermined ratio. As shown in FIG. 5, additionally, the split piece 930 is vertically smaller than the maximum vertical distance D0 between the disk body portion 910 and the lower portion of the body seat S when the valve flow path is 100% open. It may be formed to have a height, it is shown that the divided piece 930 is formed to have a vertical height smaller than the distance D1 than the maximum vertical distance (D0).

As shown in FIG. 5, when the divided piece 930 is formed to have a vertical height smaller than the maximum vertical distance D0 when the valve flow path is 100% open, flow when the valve flow path is 100% open It is more preferable that the space A can be secured larger, so that more flow rate can be moved when the valve flow path is 100% open.

The disk structure of the flow control valve 900 according to the present invention is, in another embodiment, not shown in the drawing, but unlike the disk structure shown in FIG. 5, the split piece 930 has a valve flow path 100% open It is also possible to be configured to have a vertical height equal to the maximum vertical distance D0 in the case.

7 is a view showing a graph showing a flow rate value according to the structure of the disk of the flow control valve 900 according to one embodiment and another embodiment of the present invention, respectively.

Referring to FIG. 7, the graph shown on the right shows a change in the flow rate value according to the degree of flow path opening in the disk shape of the flow control valve 900 according to an embodiment of the present invention. As shown in FIG. 7, the flow rate control valve according to one embodiment of the present invention and the flow rate control valve according to another embodiment of the present invention are shown in the disk shape of the flow control valve according to another embodiment of the present invention. All of the disk structures of 900 are the same in that the flow rate can be precisely controlled by gradually changing the flow rate in the process of gradually opening in the closed state, but the flow rate control valve according to an embodiment of the present invention ( When the disk structure of 900) is applied, compared to the case where the disk structure of the flow control valve 900 according to another embodiment of the present invention is applied, the disk is opened to the maximum. Since it can be confirmed that the flow rate value is further increased, the disk structure of the flow rate control valve 900 according to an embodiment of the present invention can move more flow rate when the valve flow path is 100% open. It is more preferable.

As described above, it will be understood that the technical configuration of the present invention described above can be implemented in other specific forms without changing the technical spirit or essential features of the present invention by those skilled in the art to which the present invention pertains.

Therefore, the embodiments described above are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the following claims rather than the detailed description, and the meaning and scope of the claims and the All modifications or variations derived from equivalent concepts should be construed as being included within the scope of the present invention.

100: cleaning module
200: heat exchange unit
300: steam supply
400: steam control valve
500: temperature sensor
600: temperature control unit
700: water level control unit
800: water level control valve
900: flow control valve
910: body
911: Combiner
920: protrusion
930: Split
S: Body seat
L: Maximum opening line
DO: Maximum vertical distance
A: Flow space

Claims (5)

A valve body in which a flow path through which fluid is transferred is formed,
A body seat in which a flow hole through which fluid is transferred is formed on a flow path in the valve body,
It is disposed in the valve body, the flow control valve including a disk provided to open and close the flow hole as it comes into contact with or detached from the body seat,
The disc is
A body part provided to open and close the flow hole as it contacts or leaves the body sheet,
And a projection formed to protrude to have a predetermined height in the upper direction of the body portion,
It is formed on both sides of the projecting portion, the flow control valve capable of precise control, characterized in that it comprises a divided piece projecting in the upper direction along the outer peripheral portion of the body portion.
According to claim 1,
A plurality of protrusions are formed along the outer circumference of the body, and the plurality of protrusions are spaced apart from each other by a predetermined distance,
The divided pieces are formed symmetrically on both sides of the protrusion,
The space between two divided pieces disposed to face each other as a space between adjacent protrusions forms a fluid flow space,
The split piece is a flow control valve capable of precise control, characterized in that the flow space is configured to gradually decrease the horizontal width as it goes from the top to the bottom, and the horizontal width gradually increases from the top to the bottom.
According to claim 2,
The split piece
It is configured to gradually increase the width in the horizontal direction from the top to the bottom,
A flow rate control valve capable of precise control, characterized in that the increasing width is gradually reduced to a predetermined ratio.
According to claim 2,
The split piece
A flow control valve capable of precise control, characterized in that it is formed to have a vertical height smaller than the maximum vertical distance between the disc body portion and the body seat when the valve flow path is 100% open.
A cleaning module unit including a nozzle entering the tank;
A heat exchange unit that heats the washing water supplied from the outside;
A steam supply unit supplying steam into the heat exchange unit;
A steam control valve formed on the steam supply unit and controlling an amount of steam supplied into the heat exchange unit;
A water level control unit that adjusts the level of condensate in which the steam supplied into the heat exchange unit is condensed; And
It is installed on the path through which the condensate is discharged, and includes a water level control valve that is opened and closed according to a control command of the water level control unit,
At least one of the steam control valve and the water level control valve
A cleaning water supply system for a tank washing apparatus, characterized in that it comprises a flow control valve capable of precise control according to any one of claims 1 to 4.

Images