KR102104344B1 - Dirty water and drainage pump apparatus with clogging prevention function - Google Patents

Abstract

Provided in the present invention is a drainage and sewage pump device with a clogging prevention function, which comprises: a casing (110) which is arranged in a sewage tank (10), and of which one side is provided with an inlet (111) and the other side is provided with an outlet (112) connected to a discharge pipe (20); an impeller (120) which is arranged in the casing (110) to be rotated while forming a water current heading from the inlet (111) towards the outlet (112); a driving motor (130) which has a driving shaft (131) connected to the impeller (120) in order to provide driving power required for the rotation of the impeller (120); a filtering net (140) which is mounted on the inlet (111) in order to block debris (A) from being infiltrated therein; a sprayed water supply pipe (150) which is connected to the discharge pipe (20) such that part of discharged drainage and sewage water is introduced therein; and a spray nozzle (160) which receives the drainage and sewage water from the sprayed water supply pipe (150), and is arranged at the inlet (111) in order to spray the drainage and sewage water at a high pressure towards the debris (A) attached to the filtering net (140) by the water current.

Description

DIRTY WATER AND DRAINAGE PUMP APPARATUS WITH CLOGGING PREVENTION FUNCTION}

The present invention relates to a wastewater pump device having a clogging prevention function, and more specifically, it is installed in a wastewater tank and discharges wastewater flowing into the outside while being pumped in the water, and is included in the wastewater to include gloves or sanitary napkins The present invention relates to a waste water pumping device equipped with a clogging prevention function so that suction of waste water is not blocked while foreign substances such as clogs the suction port.

1 shows a conventional wastewater pump device installed in a wastewater tank. Referring to the drawing, a suction port 1a is formed at a lower portion of the wastewater pumping device 1, and a discharge port 1b connected to the discharge pipe 20 is formed at the side, and the inside between the suction port 1a and the discharge port 1b is formed. An impeller (not shown) is mounted in the space, and a driving motor (not shown) providing a driving force required to rotate the impeller according to a control signal from the control panel panel 2 is mounted inside. Therefore, when the impeller is rotated by the driving motor, the suction water flow is formed, and the wastewater stored in the wastewater tank 10 is sucked into the inside through the suction port 1a to be discharged to the discharge tube 20 through the discharge port 1b. there was.

However, as shown in the drawing, the waste water may contain large foreign matter (A), such as gloves or sanitary napkins, in addition to manure or sewage, and may be introduced into the waste water tank 10, and due to such foreign matter (A), the waste water pump device (1) The suction port (1a) of the clogging could cause a problem that the discharge amount is significantly reduced or the drive motor or impeller malfunctions in severe cases. In particular, due to the nature of the sewage tank 10, it is impossible to visually check the operating state of the wastewater pump device 1 installed in the water, and when a failure occurs, the operator drains and drains the wastewater stored in the sewage tank 10, and then the worker inside the wastewater tank 10 There is a problem in that maintenance costs are excessively required because the cause of failure must be checked.

In order to prevent the foreign matter (A) from blocking the intake port 1a as described above, a filter screen (not shown) was installed on the intake port 1a side, but in the suction water stream toward the intake port 111 in the sewage tank 10. Thereby, when the open area of the suction port 111 decreases while the bulky foreign matter A is in close contact with the manure network, the load current of the driving motor rises rapidly, resulting in damage to the driving circuit or failure of the driving motor.

Registered Patent Publication No. 10-1682226 (2016.11.28), wastewater pump package system.

The present invention was created to solve the above-mentioned problems, and the object of the present invention is to prevent the clogging of the suction port or the opening area of the suction port to be reduced to prevent the load current from increasing due to the removal of foreign substances in close contact with the manure network by the suction water flow. It is to provide a drainage pump device having a clogging prevention function to prevent damage to the drive motor or drive circuit.

According to a feature of the present invention, the casing 110 is disposed in the sewage tank 10, the suction port 111 is formed on one side and the discharge port 112 is connected to the discharge pipe 20 on the other side; An impeller 120 disposed within the casing 110 and rotating to form a water flow from the suction port 111 to the discharge port 112; A drive motor 130 connected to the impeller 120 to provide a driving force required for the impeller 120 to rotate; A filter screen 140 mounted on the suction port 111 to block the inflow of foreign matter (A); A spray water supply pipe 150 connected to the discharge pipe 20 and partially discharged from the discharged water; And an injection nozzle 160 that receives the wastewater from the injection water supply pipe 150 and is disposed on the suction port 111 side, and high-pressure jetting the wastewater toward the foreign matter A that is in close contact with the manure network 140 by the water flow. There is provided a drainage pump device having a clogging prevention function comprising a.

According to another feature of the invention, the opening and closing valve 170 is mounted to the injection water supply pipe 150 to selectively open and close the pipeline; And a control panel panel 180 for driving control of the driving motor 130 and the on-off valve 170. The control panel panel 180 further includes a load current value measured by measuring the load current of the driving motor 130. When the set overcurrent judgment reference body is reached, there is provided a drainage pump device having a clogging prevention function, characterized in that the opening / closing valve 170 is controlled to open.

According to another feature of the present invention, the strainer 140 includes a plurality of extension frames 142 formed in a linearly extended bar shape, wherein each extension frame 142 is constant in a direction orthogonal to the extended direction. Spaced apart, the injection nozzle 160 is disposed on one side of the intake 111, the extension frame 142 is provided with a clogging prevention function equipped with a clogging prevention function, characterized in that the high-pressure injection of waste water in the extended direction Is provided.

According to another feature of the invention, the suction port 111 is formed to be inclined downward at a constant angle (θ) so that one side is disposed at a relatively high position than the other side, the injection nozzle 160 is the other side of the suction port 111 There is provided a drainage pump device having a clogging prevention function, which is disposed at a position and is subjected to high pressure injection of wastewater in one direction of the suction port 111.

According to another feature of the present invention, the strainer 140 is formed in an annular shape and is mounted on the suction port 111, and a hollow 113 connected to the injection water supply pipe 150 and one side is formed therein to introduce wastewater. The frame 141 is formed of a bar shape that extends linearly and is disposed in the frame 141, and a hollow 144 communicating with the hollow 143 of the frame 141 is formed therein to form a waste water inside. It includes a plurality of extension frames 142 to be transported, the injection nozzle 160 is provided with a clogging prevention function, characterized in that the high-pressure injection of the waste water is transferred to the interior is spaced apart in each extension frame 142 A waste water pumping device is provided.

According to another feature of the present invention, the strainer 140 is formed of a ring shape and is formed of a first border frame 141a mounted on the suction port 111 and a linearly extended bar shape to form a first border frame ( A plurality of first extended frames 142a disposed in 141a) and a second border frame made of a shape corresponding to the first border frame 141a and rotatably mounted to overlap the first border frame 141a ( 141b) and a plurality of second extension frames 142b disposed in a second border frame 141b made of a linearly extended bar shape, and disposed on a rotation radius of the second border frame 141b Foreign matter (A) from the second extension frame (142b) while being linearly extended to a position opposite to each interval of the rotated second extension frame (142b) and fixed to the foreign matter (A) in close contact with the second extension frame (142b) Collection bar (19) 1) is provided with a foreign matter collection module 190 is provided is provided with a drainage pump device having a clogging prevention function characterized in that it further comprises.

According to the present invention as described above,

First, the casing 110 disposed in the sewage tank 10 is formed with a suction port 111 on one side and a discharge port 112 connected to the discharge pipe 20 on the other side, and disposed within the casing 110 The impeller 120 forms a water flow from the suction port 111 to the discharge port 112 while rotating, and the driving motor 130 is connected to a drive shaft 131 to the impeller 120 so that the driving force required for the impeller 120 to rotate Provided, the filter screen 140 mounted on the suction port 111 blocks the inflow of foreign matter (A), the injection water supply pipe 150 is connected to the discharge pipe 20, a part of the waste water is introduced, The injection nozzle 160 receiving the waste water from the injection water supply pipe 150 is disposed on the suction port 111 side, and by spraying the waste water toward the foreign matter (A) in close contact with the strainer 140 by water flow, the foreign matter ( A) the suction port 111 is blocked or the opening area of the suction port 111 is reduced, To prevent the current increases, it is possible to effectively prevent the damage to the driving motor 130 or the drive circuit.

Second, the injection water supply pipe 150 is equipped with an opening / closing valve 170 to selectively open and close the pipeline, and the control panel panel 180 drives and controls the driving motor 130 and the opening / closing valve 170, but the driving motor 130 ) When the measured load current value reaches the set overcurrent judgment reference value, the opening / closing valve 170 is controlled to open, thereby allowing the foreign material A to be removed in a timely manner while driving the opening / closing valve 170. By reducing the number of times, it is possible to minimize that the discharge pressure of the waste water discharged to the discharge pipe 20 is lowered.

Third, the manure network 140 includes a plurality of extension frames 142 formed in a linearly extended bar shape, but each extension frame 142 is spaced at regular intervals in a direction orthogonal to the extended direction, and the spray nozzle 160 is disposed on one side of the intake 111, the high-pressure injection of filthy water in the direction in which the extension frame 142 is extended, thereby inducing the foreign material (A) to slide away along the extension frame 142 by injection pressure can do.

Fourth, the suction port 111 is formed to be inclined downward at a constant angle (θ) so that one side is disposed at a relatively higher position than the other side, the injection nozzle 160 is disposed at the other side of the suction port 111 is the suction port 111 ) By injecting the filthy water in one direction in high pressure, it is possible to induce that the foreign matter A in close contact with the strainer 140 slides along the inclined surface to escape.

Fifth, the filter net 140 is formed in a ring shape, is mounted on the suction port 111, and a hollow 113 connected to the injection water supply pipe 150 and one side is formed therein to form a border frame 141 through which wastewater flows. , It is formed in a linearly extended bar shape and is disposed in the frame 141, and therein is formed a hollow 144 in communication with the hollow 143 of the frame 141, so that a plurality of extension frames are transported to the inside of the wastewater. It includes (142), the spray nozzle 160 is spaced apart in each extension frame 142 by high-pressure injection of the waste water transferred to the inside, to effectively space the foreign matter (A) in close contact with the extension frame (142) Can be removed.

Sixth, the manure net 140 is composed of a ring-shaped first border frame 141a mounted on the suction port 111 and a plurality of linearly extended bar shapes arranged in the first border frame 141a. The first extended frame 142a, the second border frame 141b made of a shape corresponding to the first border frame 141a and rotatably mounted to overlap the first border frame 141a, and linearly extended Consists of a bar shape and includes a plurality of second extension frames 142b disposed in the second frame 141b, and the foreign matter collection module 190 disposed on the rotation radius of the second frame 141b. Foreign matter (A) from the second extension frame (142b) while being linearly extended to a position opposite to each interval of the rotated second extension frame (142b) and fixed to the foreign matter (A) in close contact with the second extension frame (142b) The collection bar (191) separating the Ratio, whereby the foreign material is (A) can be prevented from being in close contact to fundamentally remove the foreign substances sieve 140 (A) it is again separated from the sieve (140) from the waste water tank 10.

1 is a side view showing a state in which a conventional wastewater pump device is installed in a wastewater tank,
Figure 2 is a side view showing a state in which a wastewater pump device equipped with a clogging prevention function according to a preferred embodiment of the present invention is installed in the wastewater tank,
Figure 3 is a cross-sectional side view showing the internal configuration of the waste water pump device with a clogging prevention function according to a preferred embodiment of the present invention,
Figure 4 is a bottom view and a partial enlarged view showing the configuration of the strainer according to a preferred embodiment of the present invention,
Figure 5 is a cross-sectional side view showing a slanted inlet of the waste water pump device equipped with a clogging prevention function according to a preferred embodiment of the present invention,
6 and 7 are side cross-sectional views and flat cross-sectional views showing a configuration in which a spray nozzle according to a preferred embodiment of the present invention is disposed in a strainer,
Figure 8 is a perspective view showing the rotation structure of the strainer according to a preferred embodiment of the present invention,
9 is a side cross-sectional view showing the configuration of a foreign matter collection module according to a preferred embodiment of the present invention,
10 is a side cross-sectional view for explaining the operating principle of the foreign matter collection module according to a preferred embodiment of the present invention,
11 is a flow chart for explaining the operating principle of the waste water discharge pump device having a clogging prevention function according to a preferred embodiment of the present invention.

The objects, features and advantages of the present invention described above will become more apparent through the following detailed description. Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

The wastewater drainage pump device 100 with a clogging prevention function according to a preferred embodiment of the present invention is installed in the wastewater tank 10 as shown in FIG. 2 and discharges the wastewater flowing into the outside while pumping in the water. And, it is included in the wastewater as a wastewater pump device that operates so that the suction port 111 is not blocked by foreign substances (A), such as gloves or sanitary napkins, the casing 110 and the impeller as shown in FIGS. 2 and 3. 120, the driving motor 130, the filter screen 140, the injection water supply pipe 150 and the injection nozzle 160.

First, the casing 110 is a member that forms the body of the wastewater pump device 100 and is disposed in the wastewater tank 10, and a suction port 111 is formed on one side and a discharge port connected to the discharge pipe 20 on the other side ( 112) is formed.

The impeller 120 is a member that provides the pressure required to discharge the wastewater to the discharge pipe 20 and is disposed in the casing 110 and rotates to form a water flow from the suction port 111 to the discharge port 112. The wastewater stored in the sewage tank 10 by the water flow may be sucked into the suction port 111 and discharged to the discharge pipe 20 through the discharge port 112.

The drive motor 130 is a drive shaft 131 is connected to the impeller 120 in the casing 110 to provide the driving force required for the impeller 120 to rotate, the control is received in signal connection with the control panel 180 The impeller 120 is rotated while driving according to a signal (drive power).

The filter net 140 is a member that prevents the bulky foreign matter A, such as a glove or sanitary napkin, from being blocked by the suction port 111 and is mounted on the suction port 111 to block the inflow of the foreign material A. Here, as shown in FIG. 4, the manure net 140 includes a plurality of extension frames 142 formed in a linearly extended bar shape. In addition, the extended frame 142 is formed in a circular or arcuate cross section as in the enlarged view, so that the outer surface contacting the foreign material A is rounded so that friction with the sliding foreign material A is minimized. It is desirable to do.

The injection water supply pipe 150 is a pipe that provides the injection water required for the injection nozzle 160, and is connected to the discharge pipe 20, and a part of waste water discharged to the outside flows in. The injection nozzle 160 is a means for separating the foreign matter (A) caught in the manure net 140 from the manure net 140 receives filthy water from the injection water supply pipe 150 and is disposed on the intake port 111 side to form an impeller ( The wastewater supplied toward the foreign material A in close contact with the extension frame 142 of the filter screen 140 is injected at high pressure by the suction water of 120).

Here, as shown in Figures 3 and 5, the injection nozzle 160 is disposed on the rim of the suction port 111 or the strainer 140, and in parallel with the extension frame 142, it is possible to spray the waste water to the side, and the suction port It may be disposed on the inside of (111) to inject the waste water toward the extension frame 142 at an inclined angle.

Due to the combined configuration of the casing 110, the impeller 120, the driving motor 130, the filter net 140, the injection water supply pipe 150 and the spray nozzle 160, the filter net 140 by water flow By injecting filthy water toward the foreign matter (A) in close contact with the high pressure by discharging the foreign matter (A) from the strainer (140), the suction port (111) is blocked by the foreign material (A) or the open area of the suction port (111) is reduced. By preventing the load current from increasing, it is possible to effectively prevent the driving motor 130 or the driving circuit from being damaged.

Here, as shown in FIG. 4, each of the extension frames 142 is arranged at regular intervals in a direction orthogonal to the extended direction, and the spray nozzle 160 is disposed on one side of the suction port 111 to extend the frame ( 142) by high-pressure injection of the waste water in the extended direction, it is possible to induce that the foreign material (A) is separated along the extension frame 142 by the injection pressure to escape.

On the other hand, as shown in Figures 2 and 3, the injection water supply pipe 150 is equipped with an opening / closing valve 170 to selectively open and close the pipeline, and the control panel panel 180 has a driving motor 130 and an opening / closing valve ( 170) by driving control, but by measuring the load current of the drive motor 130, when the measured load current value reaches a set overcurrent judgment reference value, the opening / closing valve 170 is controlled to open to remove the foreign material A in a timely manner. While being able to do so, it is possible to minimize the decrease in the discharge pressure of the waste water discharged to the discharge pipe 20 by reducing the number of times the opening / closing valve 170 is driven. As illustrated in FIG. 2, the control panel panel 180 includes an input unit 181 for a user to operate the waste water pump device 100 and a display unit 182 indicating a set state and an operation state of the waste water pump device 100. It is provided.

In addition, the control panel panel 180 is provided with a timer function to count the current time or count the elapsed time from the driving start time of the driving motor 130, the set opening and closing operation time (for example, every 30 minutes) or When the set operation time, such as the set elapsed time (every 30 minutes elapses from the start of operation), is controlled so that the opening / closing valve 170 is operated to open, high pressure injection is performed at a predetermined cycle to prevent foreign matter (A) from adhering to the strainer 140. can do. In addition, the opening / closing valve 170 may automatically switch to a contact and close operation after a certain time (for example, 1 minute) after the opening operation, and receives a closing control signal from the control panel 180 to manually close the operation. You may.

In addition, as shown in Figure 5, the suction port 111 is formed to be inclined downward at a constant angle (θ) so that one side is disposed at a relatively higher position than the other side, foreign matter by the water flow into the suction port 111 (A) can be induced to slide in one direction of the intake port 111 along the inclined surface, the injection nozzle 160 is disposed at the other position of the intake port 111, high pressure of the waste water in one direction of the intake port 111 By spraying, it is possible to induce the foreign material A sliding in one direction of the suction port 111 to be separated from the suction port 111.

6 and 7, the filter net 140 is formed in an annular shape and is mounted on the suction port 111, and a hollow 113 connected to one side of the injection water supply pipe 150 is formed therein to form waste water. The inflow rim frame 141 and the linearly extended bar shape are disposed in the rim frame 141, and a hollow 144 communicating with the hollow 143 of the rim frame 141 is formed therein to form a waste water. It may include a plurality of extension frame 142 is transferred to the interior. Here, the injection nozzle 160 is spaced apart in each extension frame 142, and high-pressure injection of filthy water transferred therein can effectively remove the foreign matter (A) in close contact with the extension frame 142.

On the other hand, as shown in Figures 8 and 9, the manure net 140 is composed of a ring-shaped first border frame 141a mounted on the suction port 111 and a linearly extended bar shape. A plurality of first extension frames 142a disposed in the frame 141a and a second shape that is formed to correspond to the first frame 141a and pivotably mounted so as to overlap the first frame 141a. The frame may include a frame 141b and a plurality of second extension frames 142b formed in a linearly extended bar shape and disposed in the second frame 141b.

In addition, the foreign matter collection module 190 disposed on the rotational radius of the second frame 141b is linearly extended at a position facing each interval of the rotated second extension frame 142b and the second extension frame ( A collection bar 191 separating the foreign material A from the second extension frame 142b may be provided in the body 193 while being fixed to the foreign material A in close contact with the 142b). Therefore, as shown in (a) of FIG. 10, when the first extension frame 142a rotates while the foreign matter A is in close contact with the first extension frame 142a, each collection bar 191 of the foreign matter collection module 190 ) Is inserted at each interval of the second extension frame (142b), the foreign matter (A) is inserted into the collection bar (191), the collection bar (191) has a protruding protrusion (192) obliquely protruding backward like a fishing needle. The foreign material A formed and inserted into the collection bar 191 may be fixed.

At this time, even if the first frame 141a is rotated so that the first frame 142a is spaced apart from the suction port 111, the second frame 142b disposed in the second frame 141b is connected to the suction port 111. Since it covers, it is possible to block the introduction of other foreign substances (A) to the suction port 111.

In addition, as shown in Figure 10 (b), the foreign matter collection module 190 is provided to be movable to the outside along the upper and lower frames 194 extending to the outside of the sewage tank 10 and fixed to the collection bar 191. It is preferable to allow the foreign material (A) to be removed by the operator. In addition, although not shown, the washing water for washing the dirt collected in the fixed foreign matter (A) by spraying the washing water toward the foreign matter collection module 190 that moves upward along the upper and lower frames 194 in the waste tank 10. It is preferred that an injection module (not shown) is provided. The washing water injection module may be connected to a separate supply pipe connected to the discharge pipe 20, such as the injection water supply pipe 150, to receive a portion of the waste water discharged to the outside and spray it with washing water. It is also possible to spray tap water with washing water.

In addition, the debris collection module 190 is provided with a rotation drive unit 145 that provides a driving force required to rotate around the second frame 141b in which the first frame 141a is fixed to the suction port 111. It is preferred. As the rotation driving unit 145, an electric driving means such as a cylinder or a driving motor for hydraulically pulling out the rod may be used. In addition, a sewage tank 10 is formed of a wire connected to the rotational end of the first frame 141a. ), The first frame 141a may be rotated by a force pulling the wire from the outside.

Next, the operation principle of the waste water pump device 100 according to the preferred embodiment of the present invention will be described with reference to FIG. 11. First, when the input unit 181 of the control panel panel 180 is operated to drive the wastewater pumping device 100, a control signal (driving power) is output from the control panel panel 180, and the driving motor 130 is operated while driving shaft ( 131) is connected to the impeller 120 is rotated. (S211)

The rotation of the impeller 120 generates suction water flowing from the suction port 111 to the discharge port 112 in the casing 110, and the waste water stored in the waste water tank 10 is sucked through the suction port 111 to open the discharge port 112. It is discharged through the discharge pipe 20. (S212)

In addition, the control panel panel 180 counts the current time or counts the elapsed time from the driving start time of the driving motor 130 (S221), and determines whether an operation setting time such as a set opening / closing operation time or a set elapsed time has arrived. (S222) to control the opening and closing valve 170 to open operation when the corresponding operation setting time. (S241) While the opening and closing valve 170 is open operation, the waste water is introduced into the injection water supply pipe 150 and the injection nozzle 160 ) Sprays the wastewater at high pressure. (S242)

Thereafter, when a certain time has elapsed and the on-off valve 170 is automatically switched to a contact point or a closed control signal is output from the control panel panel 180, the on-off valve 170 is closed. (S251) Accordingly, the injection water supply pipe 150 The wastewater that has flowed into the pipe is blocked and the spraying operation of the spraying nozzle 160 is stopped. (S252)

On the other hand, the control panel panel 180 measures the load current of the driving motor 130 (S231), determines whether the measured load current value has reached the set overcurrent judgment reference value (S232), and when the overcurrent judgment reference value is reached By controlling the opening / closing valve 170 to open (S241), the foreign material A in close contact with the strainer 140 is separated from the strainer 140 by high-pressure filthy water discharged from the injection nozzle 160. ( After a certain period of time after S241), the on / off valve 170 is closed (S251), and accordingly, the discharged water is blocked by the pipeline of the injection water supply pipe 150, and the injection operation of the injection nozzle 160 is stopped. . (S252)

The present invention described above is not limited by the above-described embodiments and the accompanying drawings, and various substitutions, modifications and changes are possible within the scope of the present invention without departing from the technical spirit of the present invention. It will be apparent to those who have knowledge.

100 ... waste pump device with clogging prevention function
110 ... Casing 111 ... Intake
112 ... discharge port 120 ... impeller
130 ... driving motor 140 ... strainer
141 ... Border frame 142 ... Extended frame
150 ... Injection water supply pipe 160 ... Injection nozzle
170 ... Open / close valve 180 ... Control panel
190 ... Foreign matter collection module 191 ... Collection bar

Claims (5)

A casing 110 which is disposed in the sewage tank 10 and has a suction port 111 formed on one side and a discharge port 112 connected to the discharge pipe 20 on the other side;
An impeller 120 disposed within the casing 110 and rotating to form a water flow from the suction port 111 to the discharge port 112;
A drive motor 130 connected to the impeller 120 to provide a driving force required for the impeller 120 to rotate;
It is mounted on the suction port 111 to block the inflow of foreign matter (A), but consists of a ring-shaped first border frame (141a) mounted on the suction port 111 and a linearly extended bar shape. A plurality of first extension frames 142a disposed in the frame 141a and a shape corresponding to the first frame 141a, the second frame being rotatably mounted to overlap the first frame 141a A filtering frame 140 including a frame 141b and a plurality of second extension frames 142b formed in a linearly extended bar shape and disposed in the second frame 141b;
A spray water supply pipe 150 connected to the discharge pipe 20 and partially discharged from the discharged water;
An injection nozzle 160 that receives the waste water from the injection water supply pipe 150 and is disposed on the suction port 111 side, and high-pressure jetting the waste water toward the foreign material A that is in close contact with the strainer 140 by the water flow; And
A foreign material (A) disposed on the rotation radius of the second frame 141b and extending linearly at a position facing each interval of the rotated second extension frame 142b and adhering to the second extension frame 142b While being fixed to the second foreign matter collection module 190 provided with a collection bar 191 for separating foreign matter (A) from the extension frame (142b); a drainage pump device having a blockage prevention function comprising a.
The method according to claim 1,
An opening / closing valve 170 mounted on the injection water supply pipe 150 to selectively open and close the pipeline; And
Further comprising a control panel panel 180 for driving and controlling the drive motor 130 and the on-off valve 170;
The control panel panel 180 has a clogging prevention function characterized in that it controls the opening / closing valve 170 to open when the measured load current value by measuring the load current of the driving motor 130 reaches the set overcurrent judgment reference value. Equipped waste water pump device.
The method according to claim 1,
The suction port 111 is formed to be inclined downward at a constant angle (θ) so that one side is disposed at a relatively higher position than the other side,
The injection nozzle 160 is disposed at the other side of the suction port 111, the drainage pump device with a clogging prevention function, characterized in that the high pressure injection of the waste water in one direction of the suction port 111.
The method according to claim 1,
The filter net 140,
Consists of an annular shape and is mounted on the suction port 111, and a hollow 143 connected to one side of the injection water supply pipe 150 is formed therein to form a border frame 141 through which filthy water is introduced.
It is formed in a linearly extended bar shape and is disposed in the frame 141, and a hollow 144 in communication with the hollow 143 of the frame 141 is formed therein to form a plurality of extension frames in which filthy water is transferred to the interior ( 142),
The injection nozzle 160 is disposed at each extension frame 142, the waste water pump device with a clogging prevention function, characterized in that the high-pressure injection of the waste water transferred to the inside. delete

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