KR101325819B1 - Marine sea strainers - Google Patents

Abstract

The present invention is installed in front of the sea water pump of the ship to remove foreign matters, such as sea water to add the automatic cleaning function to the marine water strainer for preventing equipment damage to facilitate the cleaning of foreign matters, and double the productivity It is to provide a marine seawater strainer for high performance and miniaturization.
That is, the present invention is in the marine seawater strainer is provided with a filter for filtering foreign matter inside the body in order to filter the foreign matter in the sea water flowing into the body through the inlet pipe to the outflow pipe; A washing tube provided in a plurality in a vertical direction to wash foreign substances filtered by the filter; A plurality of cleaning nozzles installed in the plurality of cleaning pipes and spraying the high pressure cleaning water to the filter; A motor pump for supplying high pressure washing water to the washing tube; Characterized in that the drain pipe for discharging the foreign matter separated by the washing water to the outside of the body.

Description

Marine sea strainers

The present invention relates to a seawater strainer for ships, and more particularly, it is installed in front of the sea water pump (sea water pump) of the ship to remove the foreign substances, such as seawater to add the automatic cleaning function to the marine seawater strainer for preventing equipment damage It is to provide a marine seawater strainer that can easily perform the cleaning of foreign matters, and to increase the productivity by minimizing the productivity.

In the 21st century, ships, which occupy most of the international logistics transportation, are designed to minimize the engine room space in order to increase cargo loading space in order to maximize transportation capacity and reduce operating costs. Is going to minimize.

In addition, due to the strengthening regulations of the marine environment, new development or design change of various equipment mounted in the engine room area is required.

Marine sea water strainers are equipment that is attached to the engine room of a ship together with seawater pumps. As described above, design changes and new developments are required to reduce space in the engine room.

The main factors that determine the performance of marine seawater strainers are the efficiency and pressure drop of the filter, which consists of the seawater flowing into the body inlet of the strainer through the filter and into the seawater pump in the ship. Not only is the efficiency determined, but it can have a decisive influence on the head of the seawater pump. Therefore, the shipyards have a maximum loss pressure of 0.05 MPa or less.

On the other hand, productivity can be regarded as the main factor in terms of production and sales of products. Existing filters for seawater strainers for ships are produced by the fastening method by welding of plate-shaped structure, which requires excessive production cost and labor. As well as the disadvantages of changing the size of the product is also pointed out that the performance is reduced.

In order to solve such a problem, a technique for manufacturing a filter using a bending technique has been disclosed in Korean Patent Application No. 10-2009-0028179 to overcome the disadvantages caused by welding the plate-shaped structure of the filter.

This increased productivity by increasing the efficiency of the element (minimizing pressure drop), preventing deformation of the filter, and minimizing the work process. In addition, in accordance with the recent ship design direction to reduce the engine room volume, the same treatment flow rate of the conventional seawater strainer for ships can be minimized to match the ship design direction of the shipyard.

On the other hand, various vessels are being enlarged to maximize operating profits. On the other hand, ship crews do not tend to increase compared to the enlargement to reduce operating costs.

Therefore, since a large number of personnel cannot be put into maintenance of a ship, there is an increasing demand for a product having less convenience or maintenance due to maintenance of existing engine room parts.

Accordingly, in the case of marine seawater strainers, a technology that does not require maintenance even though it is continuously used for a long time by adopting an automatic backwashing structure was desperately desired.

As shown in FIG. 1, the marine strainer for ships has a characteristic that the pressure loss is rapidly increased when a certain level is exceeded because the foreign matter is stagnated outside the filter. In particular, it is installed on the inlet pipe of the seawater pump of the seawater strainer, and if the loss of more than a certain pressure occurs due to the characteristics of the suction head, it will greatly affect the operation of the seawater pump. This requires constant maintenance and repair of the filter.

Figure 2 shows the efficiency with or without the automatic backwash function. FIG. 2A illustrates a case where there is no backwash function, and FIG. 2B illustrates a case where backwashing is performed periodically. In the graph, M, T, W, T, and F on the abscissa are abbreviated English of the day of the week.

The characteristics of the efficiency are usually determined at the point where the efficiency is less than 50%, and it can be seen that the period of use can be extended by periodically backwashing. However, even if the backwash function is added, the recovery of 100% operating efficiency is difficult, and after a certain point, it must be cleaned by desorption. However, it is obvious that the use of the backwash function provides an efficient effect in terms of maintaining, maintaining and repairing the marine seawater strainer filter.

Such cleaning methods for automatic backwashing of marine seawater strainers can be taken in various ways, and there are no examples of automatic backwashing attached to marine seawater strainers at present, but the backwashing function is provided in various industrial fields. Many filters are known.

The backwashing method physically removes foreign substances and performs a backwashing function by passing compressed air or a backwashing fluid in a reverse direction to an inflow direction by using a pump. However, in the case of the conventional corrugated type As with the Japanese Industrial Standard (JIS), the size can no longer be reduced, and due to the problem of the shape of the filter, it is difficult to clean, and the Marine Growth Preventing System (abbreviation "MGPS system") can be applied. Increasing the volume of the sea strainer body makes it similar in size to the cylindrical type.

In the current ship design, the MPGS system changes the installation location inside the strainer, so it is impossible to install it in the narrow corrugated type.

On the other hand, the strainer cleaning method and means used in various industrial fields known at home and abroad are known methods and devices as follows.

That is, a method of separating and cleaning the screen as shown in FIG. 3, a method of automatically removing foreign matters attached to the screen as shown in FIG. 4 using a structure such as a push rod, and spraying compressed air as shown in FIG. Methods for automatically cleaning and methods of automatically removing foreign substances by flowing a fluid in a reverse direction as shown in FIG. 6 are known.

However, the known strainer cleaning method and apparatus as described above have a number of problems, such as the structure of the strainer is complicated, bulky, and inconsistent with the design direction of recent ships to reduce the engine room volume, such as There is an urgent need for the development of marine seawater strainers with a cleaning function to solve the problem.

Republic of Korea Patent Application No. 10-2009-0028179

The marine seawater strainer provided by the present invention to improve the shape of the filter to increase the porosity, to provide a marine seawater strainer that can minimize the outer size of the strainer.

Another object of the present invention is to provide a marine seawater strainer which can be easily cleaned.

In addition, the strainer filter currently used in the state that the cleaning means are not adopted, the foreign matter is caught in the filter of the strainer, the filtration efficiency is rapidly deteriorated and the maintenance work accordingly must be performed. In particular, if the filtration flow rate is less than 50%, the filter element may collapse, so maintenance and management by manpower should be performed periodically to prevent this. In particular, in the case of ships that operate international routes for a long time, it is considered as a serious problem.

Accordingly, the present invention is to provide a marine seawater strainer having a cleaning means capable of automatically cleaning by measuring and comparing the difference between the seawater pressure passing through the inlet pipe and the outflow pipe by the foreign matter filtered by the filter.

Marine sea strainer provided by the present invention provides a marine seawater strainer having an automatic cleaning function to automatically or manually clean the foreign matter in the seawater filtered by the filter.

The marine seawater strainer includes: a cleaning tube having a plurality of cleaning nozzles installed on the filter at predetermined intervals in a vertical direction;

A motor pump for supplying washing water to the washing pipe;

Pressure measuring means such as a pressure sensor installed before and after the strainer to control the driving of the motor pump;

Receiving the signal applied from the pressure measuring means and compares the pressure value of the fluid before and after passing through the strainer and the control unit is configured to control the driving of the motor pump when the predetermined set value is reached do.

And a pressure sensor is installed in the inlet pipe and the outlet pipe to sense the pressure of the seawater passing through the inlet pipe and the outlet pipe to apply a signal to the control unit, and drive the motor pump for supplying the washing water to the cleaning pipe from the control unit. Take control.

In addition, the filter is installed in the body so that the upper side is inclined toward the outlet pipe, the radius of curvature is made of a corrugated type (corrugated type),

The drain pipe is characterized in that the drain valve which is opened and closed operation by the control unit is installed.

The marine seawater strainer provided by the present invention can double the productivity by configuring the shape of the filter in a corrugated type with a gentle curvature radius, and the size of the marine seawater strainer can be reduced by reducing the size, and automatically or manually applied to the filter. By adding a cleaning function to clean the filtered foreign matter, it is possible to minimize the time and human consumption for maintenance and repair, the invention is a great invention.

1 is a graph showing a pressure loss characteristic curve of a marine seawater strainer
Figure 2 is a graph showing the efficiency according to the presence or absence of automatic backwashing function for marine seawater strainer
3 to 6 is a device configuration for explaining a conventional cleaning method for strainer cleaning apparatus
Figure 7 is a block diagram showing the overall system configuration of the marine seawater strainer provided by the present invention
8 is an overall configuration diagram of a partial cross-sectional state showing the overall system configuration of the marine seawater strainer provided by the present invention
Figure 9 is a perspective view of the main portion of the marine seawater strainer provided by the present invention, showing the filter and the cleaning means

Prior to the detailed description of the technical spirit of the marine seawater strainer provided by the present invention, the present invention is capable of various changes and may have a number of embodiments, to illustrate the specific embodiments in the drawings and to practice the invention It will be described in detail for the specific content.

It should be understood, however, that it is not intended to be limited to the particular embodiments of the invention but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Hereinafter, a seawater strainer for a ship according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings, and the same name or the same reference numeral will be written together for components performing the same function in the detailed description.

On the other hand, in the drawings and detailed description showing and referring to the construction and operation that can be easily recognized by those skilled in the art from a general marine seawater strainer is simplified or omitted.

Particularly, in the drawings and the detailed description of the drawings, detailed description and illustration of elements and structures of elements that are not directly related to the technical features of the present invention are omitted and only a technical structure related to the present invention is shown briefly .

In addition, although the size ratio between elements is somewhat different from each other in the drawing, or the size between components coupled to each other is differently expressed, the difference in representation on the drawings may be easily understood by those skilled in the art. Parts that can be understood are omitted.

Marine sea water strainer provided by the present invention is provided with a washing pipe having a plurality of cleaning nozzles are provided in the body at a predetermined interval in the vertical direction in the filter for filtering foreign matters installed inside the body,

A motor pump for supplying high pressure washing water to the washing tube;

Pressure measuring means such as a pressure sensor installed before and after a strainer to control the driving of the motor pump;

And a control unit configured to control the driving of the motor pump when the preset value is reached by comparing the pressure value of the fluid before and after passing through the strainer by receiving the signal applied from the pressure measuring means. It is done.

In addition, the pressure measuring means is to install a pressure sensor in each of the inlet and outlet pipes to sense the pressure of the seawater passing through the inlet and outlet pipes to apply a signal to the control unit,

Characterized in that the control unit to drive control the motor pump for supplying the washing water to the cleaning pipe.

In addition, the filter is made of a corrugated type with a gentle curvature radius (corrugated type), and installed in the body so that the upper side inclined toward the outlet pipe,

The drain pipe is characterized in that the drain valve which is opened and closed operation by the control unit is installed.

Figure 7 is a block diagram showing the overall configuration of a preferred embodiment of the marine seawater strainer (1) provided in the present invention, Figure 8 is a cross-sectional view showing the internal configuration of the body of the marine seawater strainer (1).

Marine water strainer (1) is an inlet pipe (2) into which seawater is introduced, the body (4) is provided with a filter (3) for filtering various foreign matter in the seawater introduced through the inlet pipe (2), The body 4 has an outflow pipe 5 through which the foreign matter has been filtered out through the filter 3 inside the body 4 to one side of the body 4.

The filter (3) is made of a known corrugated type (3) of the corrugated type (corrugated type), but to produce a gentle curvature radius to double the productivity.

Since the filter 3 is for filtering foreign substances in seawater, the filter 3 is manufactured by using stainless steel in consideration of corrosion resistance, and the like, and a porous plate having a plurality of through holes 3a corresponding to the particle size of the foreign substances for filtering. Is produced by.

In the vertical direction of the filter 3, a plurality of cleaning pipe bodies 6 are provided in the horizontal direction at predetermined intervals.

The cleaning pipe body 6 is preferably manufactured in a corrugated type according to the curvature of the filter 3, and the cleaning pipe body 6 includes several cleaning nozzles so as to spray the cleaning water downward. 7) is installed. Of course, the cleaning tube 6 is made of a straight tube irrespective of the curvature of the filter 3 so that the high-pressure cleaning water injected from the cleaning nozzle 7 is filtered into the filter 3 to the injection pressure of the washing water. It can also be implemented to be separated by.

The number of installation of the cleaning nozzle (7), etc. may be adjusted and installed according to the pressure and the injection angle of the cleaning nozzle (7) is injected through the test, and the foreign matter filtered by the filter (3) by the injection pressure of the washing water An appropriate number is installed at appropriate intervals so as to fall from the filter 3 downward.

9 is a perspective view showing a state in which the washing tube 6 is installed in the filter 3.

In the illustrated example, three washing tubes 6 are horizontally installed at predetermined intervals in the vertical direction of the filter 3, which may vary depending on the capacity and size of the scraper 1. .

The filter 3 is installed with a predetermined slope inside the body 4. That is, the inlet pipe (2) inside the body (4) is installed inclined so that the upper portion of the filter (3) inclined toward the outlet pipe (5) separated from the filter (3) inside the body (4) By allowing the drop collection to be adjacent to the side, the foreign matter collected in the drop can be discharged by opening the drain valve 9 of the drain pipe 8 provided on the bottom bottom of the body (4).

In order to supply the washing water to the washing nozzle 7 at a high pressure, the washing pipe body 6 is connected to the motor pump 10.

In order to automatically operate and operate the marine water strainer 1 of the present invention, as shown in Figure 7, 8, the pressure sensor 11 that can measure the pressure of the seawater in the inlet pipe 2 and the outlet pipe 5, respectively And a pressure measuring means such as a) and comparing the pressure values of the seawater measured from the seawater pressure sensor 11 installed in the inlet pipe 2 and the outlet pipe 5, respectively, when the motor pump 10 is above a certain ratio. The control unit 12 to drive the.

That is, the operator can manually operate the motor pump 10 to supply high-pressure washing water to the washing tube 6 installed in the filter 3 to perform manual washing. When the pressure difference between the pressure difference between the outlet and the outlet pipe 5 is greater than or equal to the set comparison pressure value, the control unit 12 detects that the seawater pressure flowing out to the outlet pipe 5 is lowered by the foreign matter, and then automatically the motor pump 10. It is possible to make it work.

The seawater strainer 1 for ships of the present invention which can be implemented as described in the preferred embodiment as described above is used to sequentially filter various foreign matters in seawater when the seawater required for the vessel is introduced into the pump,

Among the foreign matter contained in the seawater when the seawater flows in through the inlet pipe 2 of the marine seawater strainer 1 for the ship and passes through the filter 3 installed inside the body 4 to the outflow pipe 5 ( The foreign matter of particles larger than the through hole (3a) of 3) is filtered, and when the filtered foreign matter blocks the plurality of through holes (3a), the foreign matter into the outflow pipe (5) compared to the pressure of the sea water flowing into the inlet pipe (2) The pressure of the outflowing seawater is lowered.

When the pressure difference between the pressure sensor 11 installed in the inlet pipe 2 and the outlet pipe 5 is sensed, and the pressure of the outlet pipe 5 is lower than the comparison pressure value previously input from the controller 12, the controller ( In step 12), a signal is applied to the motor pump 10, and the washing water is supplied to the washing pipe 6 by the operation of the motor pump 10, and the washing water is supplied to the washing pipe 6 installed in multiple stages of the filter 3. High-pressure jet of washing water with a plurality of cleaning nozzles 7 causes various foreign substances filtered by the filter 3 to be separated from the filter 3 and dropped to the lower bottom surface inside the body 4, and the drain valve 9 is opened. The separated foreign matter is quickly discharged through the drain pipe (8).

The control unit 12 may be of course linked so that a signal for temporarily stopping the pump for pumping seawater may also be applied when the cleaning operation of the filter 3 is performed.

While the invention has been shown and described in connection with the preferred embodiments for illustrating the principles of the invention as described above, the invention is not limited to the construction and operation as shown and described. That is, those skilled in the art will appreciate that many modifications and variations can be made in the present invention without departing from the spirit or scope of the appended claims. Accordingly, all such appropriate changes and modifications and equivalents may be resorted to, falling within the scope of the invention.

The marine seawater strainer provided by the present invention can be separated and cleaned by the washing water sprayed at a high pressure through the cleaning nozzle when foreign matter in the seawater is filtered by the filter to clean the filter, thereby maintaining maintenance costs. It is possible to reduce and greatly contribute to the reduction of manpower.

1: Marine sea strainer 2: Inlet pipe
3: filter 3a: through hole
4: body 5: outlet pipe
6: Cleaning body 7: Cleaning nozzle
8: Drain Pipe 9: Drain Valve
10: motor pump 11: pressure sensor
12:

Claims (5)

In the marine seawater strainer is installed in the body filter for filtering foreign matter in the body to filter the foreign matter in the seawater flowing into the body through the inlet pipe to the outflow pipe;
A plurality of cleaning pipes installed in a plurality of up and down to clean the foreign material filtered by the filter;
A plurality of cleaning nozzles installed in the cleaning pipe and spraying high-pressure cleaning water to the filter;
The filter is a marine seawater strainer, characterized in that the curvature radius is made of a corrugated type (corrugated type), and installed so as to have an inclination toward the outlet pipe in the body. The method of claim 1, further comprising:
A motor pump for supplying high pressure washing water to the washing tube;
Marine seawater strainer characterized in that the drain pipe for discharging the foreign matter separated by the washing water to the outside of the body.
3. The method of claim 2,
Marine drainage strainer, characterized in that the drain pipe is provided with a drain valve that is opened and closed operation by the control unit.
The method of claim 1, further comprising:
Pressure sensors are installed in the inlet and outlet pipes to sense the pressure of the seawater passing through the inlet and outlet pipes, and apply a signal to the controller.
The seawater strainer for ships characterized in that the control unit to drive control the motor pump for supplying the washing water to the cleaning pipe.
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