KR102002171B1 - Strainer removable the foreign substance and pump having the same - Google Patents

Abstract

The present invention relates to a strainer and a pump using the same, wherein the strainer is installed in a sucked position of the pump to prevent performance degradation and malfunctions of the pump caused when a foreign substance in a sucked fluid is inserted into a suction hole formed on a side surface of the strainer. Cleaning water is rotationally sprayed from the inside of the strainer to remove the foreign substance in the fluid that is inserted into the suction hole formed on the side surface of the strainer, thereby preventing a foreign substance larger than the suction hole from flowing into an underwater pump. Moreover, performance degradation and malfunction of the underwater pump can be prevented.

Description

Strainer for easy removal of debris and pump using it {STRAINER REMOVABLE THE FOREIGN SUBSTANCE AND PUMP HAVING THE SAME}

The present invention relates to a strainer and a pump using the same that are installed at the suction position of the pump to prevent foreign matter in the suction fluid is caught in the suction hole formed on the side of the strainer to prevent the performance degradation and failure of the pump, and the water applied in the strainer By removing the foreign matter in the fluid trapped in the suction hole formed on the side of the strainer by rotating spraying to prevent foreign substances larger than the suction hole into the submersible pump, further remove foreign substances that can prevent the performance of the underwater pump and failure It relates to an easy strainer and a pump employing the same.

The strainer is installed at the suction position of the pump to prevent the inflow of solid foreign substances over a certain size into the submersible pump. The strainer filters the solid contaminants and solids of the fluid sucked into the pump, thereby clogging the inside of the pump. Can be prevented or damaged.

However, if the pump is used for a long time or used in a fluid containing a large amount of solid foreign substances, foreign substances that have not passed through the strainer are caught on the suction hole side of the strainer, so that the suction hole is clogged or foreign matter such as moss is caught in the suction hole. Furthermore, it may cause failure of the pump.

Therefore, in order to solve this problem, there is a need for a means for removing foreign substances caught or blocked in the suction hole of the strainer.

As a prior art document for solving such a problem, "Underwater Patent No. 10-0460656" describes a submersible motor pump for construction and industrial sites.

The prior art works under the control of the control unit 100, in the pump 300 is located in the water to suck the water passed through the filter net 200 to discharge to one side, the high pressure air in the filter net 200 Sludge removal device 400 is further configured to remove the sludge S filtered by the filtering net 200 by discharging from the inside to the outside, and the sludge removing device is configured to remove sludge filtered by the filtering net of the underwater motor pump with compressed air. It relates to an underwater motor pump for construction and industrial sites (see FIG. 10).

However, the prior document is a nozzle unit 430 for discharging the compressed air provided from the compressed air tank 410 provided to the outside to remove the sludge (S) of the filter net 200 is located on the upper side of the filter net 200 Since the compressed air is not uniformly delivered to the inside of the filtering net, sludge around the nozzle unit 430 directly reaching the compressed air may be removed, but the sludge caught by the filtering net 200 becomes farther from the nozzle unit 430 (S). ) Is difficult to remove.

In addition, since the compressed air tank 410 provided to the outside to generate the compressed air must be provided and driven separately, there is a problem that the cost of the initial installation and maintenance occurs.

Therefore, there is a need for the development of a strainer capable of effectively removing foreign substances stuck or blocked in the suction hole of the strainer to prevent performance degradation and failure of the pump.

In particular, since underwater pumps are generally used in drainage, agricultural water relations, and civil engineering works, they are installed at external work sites. There is a need for a strainer that can be easily used in a place and is applicable to various pumps as well as submersible pumps.

Republic of Korea Patent Publication No. 10-0460656 (August 12, 2004) Republic of Korea Patent Publication No. 10-1006925 (January 10, 2011)

In order to overcome the above problems, the foreign material blocking the suction hole of the strainer is removed, and foreign matter larger than the suction hole is prevented from entering the pump to prevent the strainer and the inside of the pump from being blocked, and the performance of the pump and It is an object of the present invention to provide a strainer and a pump using the same, which are easy to remove foreign matters, which can prevent a failure.

In addition, the present invention is to provide a strainer and a pump using the same is easy to remove the foreign matter unnecessary for the separate energy consumption for removing the foreign matter stuck to the strainer by using the fluid flowing into the pump. For the purpose of.

As a means for achieving the object of the present invention in the strainer easy to remove foreign substances and the pump using the same,

The strainer which is coupled to the fluid inlet side of the pump to filter foreign matter of the incoming fluid is directly coupled to the pump, and a plurality of suction holes are provided on the side to prevent foreign substances in the fluid from entering the pump, and the inside of the frame It is provided in the, and the injection unit for injecting the washing water supplied from the outside to the suction hole side and the injection unit is rotated by the injection force, and consists of a rotating unit so that the injection range of the injection portion corresponds to the position of the suction hole, The injection unit rotates the washing water toward the suction hole from the inside of the frame to remove foreign substances caught in the suction hole.

At this time, the frame side is composed of a mesh network, the side is removable can be replaced.

In addition, the injection unit is composed of a supply module for receiving the washing water from the outside and the supply pipe to be delivered to the inside of the frame and the supply pipe is supplied with the washing water, spraying the washing water toward the suction hole on the inner surface of the frame and The injection module may rotate with the injection force generated while spraying the washing water.

In this case, the supply pipe may be connected to a suction pipe through which the pump sucks and transports the fluid, and may use the fluid introduced into the suction pipe as washing water.

In addition, the injection module is a distribution port for transferring the washing water supplied from the supply pipe to the suction hole side, a distribution pipe connected to the distribution port to move the washing water, and connected vertically to the distribution pipe, the longitudinal direction of the frame It is provided with a plurality of nozzle tubes extending at a predetermined interval along the longitudinal direction of the nozzle tube, the injection nozzle for spraying the washing water toward the suction hole side.

At this time, the injection nozzle is inclined by narrowing the depression width narrowed toward the injection hole from the other side centered on the injection hole and the injection hole injecting the washing water introduced into the other side opposite to the one side coupled to the nozzle tube It is composed of an extended surface having, the washing water is injected from the injection hole is sprayed along the expansion surface is widened.

In addition, the inside of the injection nozzle is narrower from the portion connected to the nozzle tube toward the injection hole side the inner width, characterized in that to increase the injection speed of the washing water flowing along the inside of the injection nozzle.

In addition, the angle that the injection nozzle is coupled to the nozzle tube is characterized in that 0 ~ 90 °.

In addition, the rotating unit is a bearing unit is built in the bearing to rotate by the injection force of the injection portion, the coupling of the nipple and the bearing unit and the nipple so that the injection range of the injection portion corresponds to the suction hole by adjusting the length of the rotating portion And a socket for preventing the bearing unit from being released by rotational force.

In this case, the bearing unit is composed of an upper bearing unit and a lower bearing unit, the upper bearing unit is provided on the upper side of the center of the injection portion, the lower bearing unit is provided on the lower side of the center of the injection portion, and fixed to the inner bottom surface of the frame It is characterized by.

In addition, the bearing unit may be selectively used among the upper bearing unit and the lower bearing unit.

The strainer described above is applicable to a pump that is coupled to the inlet side where fluid is sucked in.

The strainer and the pump using the same according to the present invention can easily remove foreign substances, thereby preventing the foreign substances in the fluid from being caught in the suction holes by rotating spraying the washing water toward the suction holes in the strainer, and foreign substances larger than the suction holes are introduced into the pump. It prevents the inflow and prevents the strainer and the inside of the pump from clogging, thereby preventing the performance degradation and failure of the pump.

In addition, it is possible to replace the washing water, which is rotated and sprayed from the inside of the strainer to the suction hole side to remove the foreign matter on the suction hole, with the fluid sucked by the pump, and the foreign matter has a simple configuration by rotating the injection module by the injection force of the nozzle. This eliminates the need for a separate rotational power source for removal, reducing the manufacturing and assembly costs.

1 and 1a schematically show the configuration of a strainer that is easy to remove foreign substances according to the present invention.
2 and 2a shows the internal configuration and appearance of the submersible pump to which the strainer is easy to remove foreign substances according to the present invention.
3 shows embodiments of a frame according to the invention.
Figure 4 shows the injection module according to the present invention.
Figure 4a shows embodiments of the rotary module of the present invention.
Figure 5 shows various embodiments of the injection module according to the present invention.
Figure 6 shows the injection nozzle of the present invention.
7 is a plan view illustrating embodiments in which the injection nozzle of the present invention is coupled to a nozzle tube.
8 shows embodiments in which the bearing unit of the present invention is installed.
Figure 9 shows an embodiment of a land pump with a strainer according to the present invention.
Figure 10 shows a prior art document.

The present invention as described above will be described in detail with reference to the accompanying drawings.

Figures 1 and 1a schematically shows the configuration of the strainer easy to remove foreign substances according to the present invention, Figures 2 and 2a shows the internal configuration and appearance of the water pump to which the strainer easy to remove the foreign matter according to the present invention 3 illustrates embodiments of a frame according to the present invention, FIG. 4 illustrates an injection module according to the present invention, FIG. 5 illustrates various embodiments of the injection module according to the present invention, and FIG. Figure 7 shows the injection nozzle of the invention, Figure 7 shows a plan view of the embodiments in which the injection nozzle of the present invention is coupled to the nozzle tube, Figure 8 shows an embodiment in which the bearing unit of the present invention is installed, Figure 9 An embodiment of a ground pump to which a strainer according to the present invention is applied is shown.

Strainer easy to remove foreign matter according to the present invention is coupled to the suction port side of the pump to prevent the foreign matter caught in the fluid in the strainer suction hole by rotating spraying the washing water from the inside, foreign matter larger than the suction hole is introduced into the pump This prevents the performance degradation and failure of the pump.

The strainer 1 is composed of a frame 100, the injection unit 200 and the rotating unit 300.

Frame 100 is a portion corresponding to the body of the strainer 1, has a cylindrical shape and the upper portion is provided coupled to the portion where the fluid of the pump (2) is sucked.

In the side of the frame 100, a plurality of suction holes (110) having an inner diameter of the solid foreign matter in the fluid is not allowed to pass through the side, and the external fluid through the suction hole (110) suction holes (110) Inflow to the pump (2).

The frame 100 may be manufactured in a suitable embodiment according to the type of the pump (2) to be applied may be coupled to the pump (2).

That is, the upper surface is made open as shown in Figure 3 (A) is coupled directly to the suction port (2a) of the pump (2) or the inlet of the suction pipe (2b) suction on the upper surface as shown in Figure 3 (B) A flange 120 that can be directly coupled with the flange 120 is provided to be coupled using the flange 120. At this time, the flange 120 is formed to protrude upwards on the upper surface of the frame 100, the central hole 121 in communication with the inside of the frame 100 in the center of the flange 120 is formed through the protrusion direction The central hole 121 and the suction port 2a or the suction pipe 2d is directly coupled to the distal side of the pump so that only the fluid passing through the strainer 1 can be introduced into the pump 2.

Hanfun, the side 101 of the frame 100 may be detachable as shown in (C) of FIG. At this time, the frame 100 is open in the cylindrical side, the upper and lower parts are connected to each other. Attached to the open side of the frame 100, it is composed of a mesh network having a shape corresponding to half of the open side made of a pair.

Therefore, by attaching and attaching the side to the frame 100 having the open side, the fine holes formed in the mesh network play a role as the suction hole, and when the side made of the mesh network is damaged due to sharp solids, it can be easily replaced. That has the advantage.

In particular, when the side of the frame 100 is composed of a mesh network, a separate punching operation is not required for forming the suction hole 110, and the suction hole of the side 101 made of the mesh net is formed by a punching operation. The smaller size than the ball 110 can also filter foreign matter of a small size.

The strainer 1 not only filters foreign substances in the fluid including solid contaminants but also serves to support the pump 2 by being positioned at the bottom of the pump 2 when applied to an underwater pump. It should be made firmly to support the weight of 2).

 The injection part 200 and the rotating part 300 are provided in the above-described frame 100 so that the washing water sprays the washing water toward the side of the frame 100 in which the suction hole 110 is provided. By rotating the rotating unit 300 can be sprayed evenly to the side of the frame 100.

The injection unit 200 is divided into a supply pipe 210 and the injection module 220.

First, the supply pipe 210 is a passage through which the injection module 220 supplies washing water to be injected to the injection module 220 through the injection nozzle 224 to the inner surface of the strainer 1, that is, the suction hole 110 is located. Play a role.

The supply pipe 210 is connected to the transfer pipe (2b) in the pump and the fluid sucked in the pump (2) receives the fluid flowing into the pump (2) is used as washing water (see Fig. 2), or the pump (2) It is connected to the washing water supply device (not shown in the drawing) provided separately to the outside to move the washing water supplied from the washing water supply to the injection module 220.

For example, when the supply pipe 210 is applied to the submersible pump as shown in FIGS. 2 and 2a, the supply pipe 210 may be connected to the transfer tube 2b in the submersible pump to receive the introduced fluid as the wash water. When the strainer 1 is applied, the supply pipe 210 may be connected to the suction pipe 2d to receive the fluid sucked into the suction pipe 2d and may be used as washing water.

Therefore, one end of the supply pipe 210 is connected to the main body for supplying the washing water, that is, the transfer pipe 2b or the suction pipe 2d or the washing water supply device (not shown), and the other end is introduced into the strainer 1. By being connected to the injection module 220, the washing water introduced from one end is moved to the injection module 220 through the supply pipe 210, and then sprayed toward the inner side of the strainer (1).

On the other hand, the supply pipe 210 is connected to the transfer pipe (2b), extending to the outside of the pump (2), bent vertically to be drawn into the strainer (1) located in the lower side of the pump (2) 'By the configuration of the elbow 211 is made of a plurality of pipes without bending the supply pipe 210 itself, and can be easily assembled through the elbow 211 and at the same time the replacement of the supply pipe 210 later And maintenance work can be made easy. This allows the supply pipe 210 to be located near the outside of the pump 2 and the strainer 1 to prevent the supply pipe 210 from being shaken by an external force with the supply pipe 210 to a minimum length.

In addition, when the washing water discharge pressure of the spraying unit 200 is not low enough to rotate sufficiently in the spraying unit 200, it is preferable to use high-pressure external washing water through a washing water supply device provided outside.

Therefore, the manufacturer may use the fluid sucked by the pump 2 in consideration of the pressure of washing water or the like, or may be supplied with an external high pressure washing water to clean the inside of the strainer 1 and remove foreign substances.

The injection module 220 is provided inside the strainer 1 to inject the washing water received from the supply pipe 210 to the inner surface of the strainer 1, to remove foreign substances caught in the suction hole 110, and to remove the foreign substances from the strainer 1. Serves to clean the inner surface.

The injection module 220 is composed of a distribution port 221, a distribution pipe 222, a nozzle pipe 223 and the injection nozzle 224.

First, the injection module 220 is provided on the other end side of the supply pipe 210, the supply pipe 210 introduced into the inner center of the frame 100 of the strainer 1 is provided with a rotating portion 300 described later, such a rotating portion 300 and the distribution port 221 is coupled.

The distribution port 221 is connected to one end of the rotating part 300, and has a 'T' shape that is bent in a right angle shape according to the intention of the manufacturer, and has a distribution pipe 222 and a nozzle pipe 223 on both sides, bidirectionally. 5 may be provided with a distribution pipe 222 and a nozzle pipe 223 only on one side to have a 'b' shape (see FIG. 5 (A) and (B)). C)).

The dispensing pipe 222 is coupled to the nozzle pipe 223 and the injection nozzle 224 to move to the nozzle tube 223 and the jet nozzle 224 except for the portion of the dispensing hole 221 coupled to the rotating part 300.

The distribution pipe 222 is a tubular shape extending toward the inner surface of the strainer 1 from the center of the inner frame 100 where the distribution port 221 is located, the distribution pipe 222 is connected to the nozzle pipe 223. This is because the washing water sprayed from the spray nozzle 224 may not reach the inner surface of the strainer 1 when the nozzle 223 is directly connected to the nozzle tube 223, so that the washing water sprayed by the spray nozzle 224 is strainer 1. ) It is a passage for moving the washing water toward the nozzle tube 223 and the strainer 1 so as to sufficiently reach the inner side.

The nozzle pipe 223 is connected to the distribution pipe 222 has a pipe shape having a height corresponding to the inner height, the nozzle tube 223 is provided with a plurality of nozzle nozzles (224) on the outer surface of the nozzle pipe ( It is located in the direction toward the inner side of the strainer 1 in the inner center of the 223. At this time, the injection nozzles 224 are spaced a predetermined distance apart according to the height of the nozzle pipe 223 on the same vertical line.

Therefore, the injection module 220 is supplied with the washing water from the supply pipe 210, the injection nozzle 224 is provided to match the inner height of the strainer 1 so that the washing water can be evenly sprayed on the inner surface of the strainer (1). do.

The nozzle tube 223 also selectively connects the nozzle tube 223 in a vertical direction around a portion connected to the distribution tube 222 to spray the washing water into the nozzle tube 223 of various types.

That is, when the vertical length of the frame 100 is short, it may be connected to the upper side of the distribution pipe 222 end in a shape orthogonal to the distribution pipe 222 as shown in Figure 5 (A), and the (B) of Figure 5 As described above, one distribution pipe 222 is coupled to the nozzle pipe 223 to the upper side, and the nozzle pipe 223 is coupled to the distribution pipe 222 in the other direction to the lower and upper and lower portions of the inner surface of the strainer 1. Each nozzle tube 223 can be cleaned.

In addition, the distribution pipe 221 is provided with a distribution pipe 222 only on one side using a joint pipe having a right-angle shape to connect the distribution pipe 222, the nozzle pipe around the distal end of the distribution pipe 222 223 may be connected in a vertical direction to spray the washing water in accordance with the height of the inner surface of the frame 100 with one distribution pipe 222 (see FIG. 5C).

Therefore, the injection module 220 of various forms may be assembled and manufactured in consideration of the shape of the frame 100 of the strainer 1 and the like where the pump is used.

One end of the injection nozzle 224 is coupled to the nozzle tube 223, and the other end is formed to face the inner surface of the strainer 1 at the same time the injection hole (224a) for the washing water is formed. At this time, the interior of the injection nozzle 224 is designed such that the area 224c flowing toward the injection hole 224a side gradually decreases in the area where the washing water flows so that the washing water introduced into the nozzle tube 223 can be quickly dispersed. When the washing water moving inside the injection nozzle 224 at a high speed is discharged, an expansion surface 224b is provided around the injection hole 224a to spread widely.

As shown in FIG. 6, the expansion surface 224b is recessed about the injection hole 224a and is gradually inclined toward the injection hole 224a toward the injection direction toward the injection direction.

The expansion surface 224b is recessed to have a “V” shape in which a cross section recessed about the injection hole 224a is gradually widened so that the washing water may be sprayed in a fan shape.

The expansion surface 224b is to allow the washing water discharged from the injection hole 224a to be widely spread along the expansion surface 224b, thereby widening a large area with a small amount of the injection nozzle 224 and the inner surface of the strainer 1. That is, the washing water may be sprayed toward the suction hole 110.

For example, when the spray nozzle 224 is sprayed only at a high speed, the spray water is sprayed in a straight line so that the washing water is sprayed only to the suction hole 110 at the position facing the spray hole 224a, thereby generating a blind spot. There is a concern that the foreign matter attached to the) may be partially removed.

Therefore, the spray nozzle 224 of the present invention sprays the washing water quickly, but spreads widely through the expansion surface (224b) to spray a wide spray so that blind spots do not occur in the washing water spraying area to wash the sides of the strainer 1 evenly. , Through it to facilitate removal of foreign matter stuck to the suction hole 110 or pinched.

The injection nozzle 224 is coupled to the nozzle tube 223 in an orthogonal shape, the surface formed with the injection hole 224a is coupled to face the inner surface of the frame 100 of the strainer 1 (A) of FIG. A direction perpendicular to the extending direction of the distribution pipe 222, that is, the coupling angle is coupled at 90 degrees, or coupled at any angle within 0 ~ 90 ° as shown in Figure 7 (B), or Figure 7 (C The spray nozzle 224 may be coupled to a direction in which the distribution pipe 222 extends in a horizontal direction, that is, a coupling angle of 0 °.

That is, the angle at which the injection nozzle 224 is coupled to the nozzle tube 223 is coupled within the range of 0 to 90 °.

At this time, the injection nozzles 224 provided to the left and right around the distribution port 221 are coupled to the nozzle tube 223 in a shape in which the left and right are inverted around the distribution port 221. For example, when the injection nozzle 224 of the nozzle pipe 223 located on the left side of the distribution port 221 is provided toward the front side, the injection nozzle of the nozzle pipe 223 located on the right side of the distribution port 221 ( 224 is provided to the rear side to be easily rotated by the injection force while the washing water is sprayed.

On the other hand, the above-mentioned washing water is a fluid that is injected into the interior of the strainer 1, not a liquid containing a separate detergent, reveals that it means the fluid sucked into the suction port (2a) or the external water.

The rotating part 300 is provided so that the injection part 200 is provided at a designated position, and the injection part 200 is rotated by the injection force of the injection part 200, and the bearing unit 310, the socket 320 and It consists of a nipple 330. In this case, the designated position means a height at which the injection unit 200 is installed so that the injection range of the injection module 220 corresponds to the position where the suction hole 110 is provided.

First, the bearing unit 310 is provided in the lower portion of the rotating unit 300, the bearing is embedded so that the injection module 220 can rotate inside. At this time, the bearing is made of a ball bearing or a sleeve bearing. This type of bearing is selected and used according to the pressure received by the rotating part 300.

For example, when the injection module 220 receives a high pressure, the ball bearing is embedded in the rotating part 300, and in other cases, the sleeve bearing is used, but the present invention is not limited thereto.

In addition, as shown in Figure 4a, the upper and lower parts of the bearing unit 310 is formed with a screw thread is connected to the socket 320 and the distribution pipe 221, respectively, when using a high-pressure washing water to replace the high-pressure bearing unit 310 ' Do it.

The socket 320 is configured such that the nipple 330 and the bearing unit 310 are coupled to each other, thereby preventing the bearing unit 310 from being loosened by rotational force and being fixed to the nipple 330.

In addition, the nipple 330 is to adjust the length of the rotating part 300, the injection unit 200 is located in the center of the inner frame 100 of the strainer 1, a plurality of injection module 220 is frame 100 Both side suction holes 110 to be sprayed.

Therefore, the injection module 220 is rotated around the distribution port 221 by using the injection force for spraying the washing water from the injection nozzle 224 through the above-described rotating unit 300, the injection range of the injection module 220 The injection unit 200 may be provided at a designated position to correspond to the suction hole 110. At this time, the bearing unit 310 is provided on the upper or lower portion of the distribution port 221 so that the injection module 220 can be easily rotated, the frame 100 of the strainer 1 in a state connected to the supply pipe 210 Rotating the washing water toward the suction hole 110 while rotating the inside.

On the other hand, the rotating part 300 is provided above the distribution port 221 as shown in Figure 4 is connected to the supply pipe 210 and the distribution port 221, sprayed through the bearing unit 310 included in the rotating part 300 The module 220 may help to rotate, but the injection module 220 may be shaken or released due to vibration generated while rotating, and the rotational force may be weak when the injection force of the injection unit 200 is weak.

Therefore, as shown in FIG. 8, the bearing unit 310 is provided in the lower portion of the distribution port 221 to stably fix the lower side of the injection module 220 and to easily rotate the bearing module 310. In this case, the bearing unit 310 is divided into an upper bearing unit 310a and a lower bearing unit 310b according to the provided position.

Referring to FIG. 8, as shown in FIG. 8A, a distribution port 221 is provided between the upper bearing unit 310a and the lower bearing unit 310b to rotate due to the injection nozzle 224 of the nozzle tube 223. When it is easily rotated around the distribution port 221, it is possible to rotate quickly by being provided with a bearing unit 310 to help the rotation of the injection module 220 in the vertical direction.

In addition, as shown in (B) of FIG. 8, the lower bearing unit 310b may be positioned only at the lower portion of the distribution port 221 so that the injection module 220 may rotate.

At this time, the lower bearing unit 310b is fixed to the center of the lower surface of the inner strainer 1 is installed so that the injection module 220 can be stably rotated.

Thus, the strainer 1 having the above-described configuration can be applied to the pump 2 of various forms.

When it is applied with the submersible pump as shown in FIG. 8A, when the impeller 2c in the inlet 2a is rotated by being directly coupled to the inlet 2a side of the submersible pump, the fluid (the suction hole of the strainer 1) It flows into the suction port 2a via the 110 and moves along the transfer pipe 2b.

In addition, it can be coupled to the submersible pump as shown in Figures 2 and 2a, when applied to a land pump as shown in Figure 9 the strainer (1) on the inlet side of the suction pipe (2d) through which the fluid is sucked through the pump (2) Is provided in combination.

Therefore, there is an advantage that it can be applied to various kinds of pumps 2 as described above.

In the above description, the technical idea of the present invention has been described together with the accompanying drawings. In addition, it is obvious that any person having ordinary skill in the art to which the present invention pertains can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

1: strainer 2: pump
100: frame 110: suction hole
120: flange 200: injection portion
210: supply pipe 220: injection module
221: distribution port 222: distribution pipe
223: nozzle tube 224: injection nozzle
300: rotating part 310: bearing unit
320: socket 330: nipple

Claims (12)

In the strainer that is coupled to the fluid inlet side of the pump to filter foreign matter of the incoming fluid,
Directly coupled to the pump, and provided with a plurality of suction holes on the side to prevent foreign matter in the fluid from entering the pump; and the inside of the frame, spraying the washing water supplied from the outside to the suction hole side Quartet; And a rotating unit for rotating the injection unit by the injection force and allowing the injection range of the injection unit to correspond to the position of the suction hole.
The injection unit, the supply pipe for receiving the washing water from the outside to deliver to the inside of the frame; And an injection module connected to the supply pipe to receive the washing water, and spraying the washing water toward the suction hole on the inner surface of the frame.
The supply pipe is connected to the transfer pipe to which the fluid flowing into the pump is moved to use the fluid introduced into the transfer pipe as washing water,
The injection module is a distribution port for transferring the washing water supplied from the supply pipe to the suction hole side; and a distribution pipe connected to the distribution port to move the washing water; and is connected perpendicular to the distribution pipe, the length of the frame Nozzle tube extending in the direction; And a plurality of injection nozzles provided at a predetermined interval along the longitudinal direction of the nozzle tube and spraying the washing water toward the suction hole side.
The injection nozzle is a spray hole for injecting the washing water introduced into the other side opposite to one side coupled to the nozzle tube; And an expanded surface having a slope in which the depression width is narrowed from the other side to the injection hole side to be inclined toward the injection hole, wherein the inside of the injection nozzle has an inner width from the portion connected to the nozzle tube toward the injection hole side. The narrower, the washing water is injected into the injection hole is quickly sprayed in a fan shape, the strainer is easy to remove the foreign material, characterized in that the injection unit is rotated by the injection force of the washing water sprayed by the injection module.
The method of claim 1,
The frame is composed of a mesh network on the side,
The side is easy to remove the foreign material, characterized in that the removable removable strainer.
delete delete delete delete delete The method of claim 1,
Strainer easy to remove the foreign material, characterized in that the injection nozzle is coupled to the nozzle tube is an angle of 0 ~ 90 °.
The method of claim 1,
The rotating part,
A bearing unit having a bearing embedded therein to rotate with the injection force of the injection unit;
A nipple for adjusting the length of the rotating part so that the injection range of the injection part corresponds to the suction hole; And
And a socket for coupling the bearing unit and the nipple and preventing the bearing unit from being loosened by rotational force.
The method of claim 9,
The bearing unit is composed of an upper bearing unit and a lower bearing unit,
The upper bearing unit is provided above the center of the injection portion,
The lower bearing unit is provided at the center lower side of the injection portion, the strainer is easy to remove the foreign material, characterized in that fixed to the inner bottom surface.
The method of claim 10,
The bearing unit is a strainer for easy removal of foreign matters, characterized in that to use selectively between the upper bearing unit and the lower bearing unit.
The method according to any one of claims 1, 2 and 8 to 11,
And the strainer is coupled to an inlet side for sucking fluid.

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