KR101763112B1 - drainage pump - Google Patents

Abstract

The present invention relates to a drain pump of a new structure capable of preventing the drive motor (40) from being reversely rotated and being damaged.
The drain pump according to the present invention is provided with a diaphragm 14 having an opening 14a at its center and extending inwardly to be positioned below the impeller 30 at an absorption port 11 of the drain pipe body 10, A connecting shaft 31 extending downward from the impeller 30 and a connecting shaft 31 connected to the connecting shaft 31 so as to be positioned on the upper side of the diaphragm 14 and coupled to the opening 14a at the time of descending, The valve body 60 is closed by the pressure of the water to be raised when the impeller 30 is rotated by the drive motor 40 and the water is sucked upward. When the impeller 30 is stopped, the valve body 60 is lowered due to its own weight to close the opening 14a, so that the water in the water pipe 10 flows backward downward ≪ / RTI >
Therefore, when the impeller 30 is stopped, the water filled in the water pipe 10 flows back to the lower absorption port 11, the impeller 30 and the driving motor 40 are reversely rotated, Thus, there is an advantage that an error or damage to the controller connected to the driving motor 40 or the driving motor 40 can be prevented.

Description

Drainage pump

The present invention relates to a drain pump of a new structure capable of preventing the drive motor from being reversely rotated and being damaged.

1, a drain pipe body 10, which is formed so as to extend in the up-and-down direction and has an absorption port 11 and a drain port 12 at the lower end and the upper end, respectively, An impeller 30 provided at a lower end of the drive shaft 20 so as to be positioned inside the drain pipe body 10; And a plurality of water supply holes 51 are formed in the circumference of the water supply pipe 51 so as to be connected to an absorption port of the water discharge pipe body 10 And a strainer (50) extending downwardly from the upper end (11).

At this time, the drain pipe body 10 is formed in the form of a straight pipe having a constant diameter at the upper and lower ends, and the lower absorption pipe 11 is installed so as to be submerged in the water stored in the water collecting tank of the water pipe. And connected to a separate drainage pipe (13).

The impeller 30 is composed of a head portion coupled to the lower end of the drive shaft 20 and a plurality of blades extending radially in the periphery of the head portion.

Therefore, when the drive shaft 20 and the impeller 30 are driven by the drive motor 40, the impeller 30 sucks the water in the water reservoir through the absorption port 11 of the water pipe 10 and pushes it upward So that the water is discharged to the discharge pipe 13 through the upper drain hole 12.

The strainer 50 is installed to close the absorption port 11 of the water pipe 10 so that foreign substances contained in the water sucked into the absorption port 11 can be filtered when the impeller 30 is operated. .

In this drain pump, the drain pipe body 10 extends in the vertical direction so that the water sucked into the absorption pipe 11 is lifted along the drain pipe body 10 and then discharged to the drain pipe 13.

That is, when the impeller 30 is rotated by the driving motor 40, the water pipe 10 is kept filled with water.

When the driving motor 40 is stopped and the impeller 30 is not rotated, the water filled in the water pipe 10 flows back to the lower absorption port 11, so that the impeller 30 And the drive motor 40 are reversely rotated.

When the driving motor 40 is forcibly rotated backward by the water flowing backward through the water pipe 10, the driving motor 40 is rotated in the predetermined direction. An unnecessary load is applied to the controller connected to the driving motor 40 and the controller connected to the driving motor 40, thereby causing an error or damage to the driving motor 40 and the controller.

In addition, when the impeller 30 is rotated and sucks water through the absorption port 11, foreign matter contained in water adheres to the outer circumferential surface of the strainer 50, thereby blocking the absorption port 11.

Therefore, there is a need for a new method to solve such a problem.

Patent No. 10-1524006,

SUMMARY OF THE INVENTION It is an object of the present invention to provide a drain pump of a new structure capable of preventing the drive motor (40) from being damaged by reverse rotation.

In order to achieve the above object, according to the present invention, there is provided an air conditioner, comprising: a water pipe body (10) having an absorption port (11) and a water outlet port (12) An impeller 30 provided at a lower end of the driving shaft 20 so as to be positioned inside the drain pipe body 10 and connected to the driving shaft 20; And a plurality of water supply holes 51 are formed in the peripheral portion of the water supply pipe 40 so as to extend downward to the absorption port 11 of the water pipe 10, And an opening 14a is formed at the center of the absorption pipe 11 so as to be positioned below the impeller 30. The drain pipe 10 is provided with a strainer 50, (14), and the lower side of the impeller (30) Which is connected to the connecting shaft 31 so as to be positioned on the upper side of the diaphragm 14 and which is connected to the opening 14a when the lower portion is lowered and seals the opening 14a, When the impeller 30 is rotated by the driving motor 40 and the water is sucked upward, the valve body 60 is raised by the pressure of water to be raised, When the impeller 30 is stopped and the valve body 60 is lowered due to its own weight to seal the opening 14a to prevent water in the drain pipe body 10 from flowing backward downward And a drain pump connected to the drain pump.

According to another aspect of the present invention, the valve body 60 is formed in a vertically extending pipe shape so that the valve body 60 can be coupled to the outer side of the connection shaft 31, And a valve body 62 extending outwardly from the elevating tube 61 and coupled to the opening 14a to seal the opening 14a, 50 are formed at the center of the bottom surface of the strainer 50 so as to be rotatable with respect to the through hole 52. The rotary shaft 70 is rotatably coupled to the through hole 52, A scrapper 80 coupled to the rotating shaft 70 and rotated together with the rotating shaft 70 to remove foreign matter adhered to the outer surface of the strainer 50; Further comprising upper and lower clutch members (91, 92), respectively, The lower clutch member 92 provided on the shaft 70 is elastically pressed to be raised by the elastic member 93 while being coupled to the rotary shaft 70 so that the lower clutch member 92 can be raised and lowered but not rotated, The upper and lower clutch members 91 and 92 are brought into close contact with each other so that the drive shaft 20 and the rotary shaft 70 are driven to be connected to each other via the vertically movable body 61 and the connecting shaft 31 And a drain pump connected to the drain pump.

According to another aspect of the present invention, an auxiliary drainage port 15 through which water stored in the drainage pipe body 10 is formed is formed at a lower end of the drainage pipe body 10, The drain pump further includes an on-off valve (100).

According to another aspect of the present invention, there is provided a flow rate measuring device (110) for measuring the velocity and direction of water flowing in the water pipe body (10) inside the water pipe body (10) A control means for receiving the signal of the flow rate measuring means 110 and controlling the operation of the braking means 120, Wherein the control means (130) receives the signal of the flow rate measuring means (110) and when it is sensed that the water stored in the drain pipe (10) The means (120) being actuated.

According to still another aspect of the present invention, the apparatus further includes an ascending / descending detecting means (140) provided on the connecting shaft (31) for detecting that the valve body (60) The control unit 130 is configured to receive the signal of the elevation sensing unit 140 and to control the rotational speed of the driving motor 40 so that the valve body 60 can be controlled by the elevation sensing unit 140, The control means 130 drives the rotation speed of the drive motor 40 at a low rotation speed set lower than the normal rotation speed.

The drain pump according to the present invention is provided with a diaphragm 14 having an opening 14a at its center and extending inwardly to be positioned below the impeller 30 at an absorption port 11 of the drain pipe body 10, A connecting shaft 31 extending downward from the impeller 30 and a connecting shaft 31 connected to the connecting shaft 31 so as to be positioned on the upper side of the diaphragm 14 and coupled to the opening 14a at the time of descending, The valve body 60 is closed by the pressure of the water to be raised when the impeller 30 is rotated by the drive motor 40 and the water is sucked upward. When the impeller 30 is stopped, the valve body 60 is lowered due to its own weight to close the opening 14a, so that the water in the water pipe 10 flows backward downward ≪ / RTI >

Therefore, when the impeller 30 is stopped, the water filled in the water pipe 10 flows back to the lower absorption port 11, the impeller 30 and the driving motor 40 are reversely rotated, Thus, there is an advantage that an error or damage to the controller connected to the driving motor 40 or the driving motor 40 can be prevented.

1 is a front sectional view showing a conventional drain pump,
2 and 3 are front sectional views showing a drain pump according to the present invention,
4 is a front sectional view showing a main part of a drain pump according to the present invention,
5 is a plan sectional view showing a scrapper of a drain pump according to the present invention,
6 to 8 are front sectional views showing the action of the drain pump according to the present invention,
9 is a front sectional view showing a second embodiment of the drain pump according to the present invention,
10 is a circuit diagram showing a second embodiment of the drain pump according to the present invention,
11 is a front sectional view for explaining the operation of the second embodiment of the drain pump according to the present invention,
12 is a front sectional view showing a main part of a third embodiment of a drain pump according to the present invention,
13 is a circuit diagram showing a third embodiment of the drain pump according to the present invention,
14 is a front sectional view showing the operation of the third embodiment of the drain pump according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2 to 8 show a drain pump according to the present invention. The drain pump body 10 is formed to extend vertically and has an absorption port 11 and a drain port 12 at the lower end and the upper end, respectively. An impeller 30 provided at a lower end of the drive shaft 20 so as to be positioned inside the drain pipe body 10; And a plurality of water supply holes 51 are formed in the circumference of the water supply pipe 51 so as to be connected to an absorption port of the water discharge pipe body 10 And the strainer 50 extends downward from the strainer 11 as shown in Fig.

At this time, the water pipe (10) is fixed so as to penetrate the upper plate (1) of the water collecting tank provided in the water storage place where water is stored, in the vertical direction.

According to the present invention, a diaphragm 14 having an opening 14a formed at its center and extending inward to be positioned below the impeller 30 is provided at an absorption port 11 of the water pipe 10.

The opening 14a is configured to have a circular shape and the diaphragm 14 is inclined downward toward the opening 14a.

A connection shaft 31 extending downwardly of the impeller 30 is coupled to the connection shaft 31 so as to be positioned on the upper side of the partition plate 14 and is coupled to the opening 14a A rotary shaft 70 coupled with the strainer 50 so as to penetrate the strainer 50 in the vertical direction and a rotary shaft 70 provided on the outer side of the strainer 50, Connected scrapers 80 and upper and lower clutch members 91 and 92 provided at the upper ends of the valve body 60 and the rotary shaft 70, respectively.

The connection shaft 31 extends downward from the center of the lower portion of the impeller 30 so as to be concentric with the drive shaft 20 so that the drive shaft 20 is rotated together with the drive shaft 20 when the drive shaft 20 is rotated. .

As shown in FIG. 4, the valve body 60 includes a vertically extending tube body 61 and a lifting tube body 61 coupled to the outside of the connecting shaft 31, And a valve body 62 provided to extend outward to the outside and coupled to the opening 14a to seal the opening 14a.

The coupling shaft 31 is configured to have a hexagonal cross-sectional shape. The hexagonal coupling hole 61a corresponding to the coupling shaft 31 is formed in the elevating tube 61 so as to pass through the upper and lower ends of the coupling shaft 31 When the elevating tube 61 is coupled to the outside of the connecting shaft 31, the elevating tube 61 is coupled to the outside of the connecting shaft 31 so as not to rotate while being lifted and lowered.

The valve body 62 is formed in a circular plate shape having a contact surface 62a which is in close contact with an upper circumferential portion of the opening 14a on a lower peripheral side surface thereof and is engaged with a middle portion of the elevating tube 61.

The rotating shaft 70 is configured to extend in the vertical direction and is rotatably coupled to the through hole 52 in the vertical direction at the center of the bottom surface of the strainer 50, And the lower end of the strainer 50 is configured to extend downward.

At this time, a support portion 71 for supporting an elastic member 93, which will be described later, is formed on the middle portion of the rotation shaft 70 so as to protrude outward.

The scrapper 80 includes a pivoting bar 81 having a laterally extending bar shape and having an intermediate portion coupled to a lower end of the rotating shaft 70 so as to be positioned below the strainer 50, And an urging member (82) extending upward from both ends of the strainer (81) and closely contacting the outer circumferential surface of the strainer (50).

5, when the rotating shaft 70 is rotated, the scrapper 80 is rotated so that the contact member 82 is rotated by the rotation of the scraper 80. As a result, Foreign matter attached to the outer circumferential surface of the strainer 50 is scraped off.

The upper clutch member 91 is integrally fixed to the lower end of the lifting body 61 of the valve body 60 and has a through hole 91a through which the connecting shaft 31 passes.

The lower clutch member 92 is elastically pressed to be raised by the elastic member 93 while being able to move up and down on the rotary shaft 70 but not to rotate.

To this end, the lower clutch member 92 is formed with a through hole 92a through which the rotary shaft 70 is vertically coupled.

An engaging portion 92b corresponding to the enlarged diameter portion 72 is formed on the upper end of the through hole 92b of the lower clutch member 92 And the enlarged diameter portion 72 and the engaging portion 92b are formed to have a hexagonal cross section corresponding to each other.

The elastic member 93 is coupled to the outer side of the rotary shaft 70 and the upper and lower ends thereof are supported by the lower side of the lower clutch member 92 and the protrusion of the rotary shaft 70, A compression coil spring is used.

When the upper clutch member 91 is lowered together with the valve element 60 and the upper clutch member 91 is brought into close contact with the upper surface of the lower clutch member 92 as described later, the upper and lower clutch members 91, 92, the connecting shaft 31 and the rotating shaft 70 are drivingly connected to each other.

At this time, the lower clutch member 92 is suitably lowered while the elastic member 93 is compressed by the force that the upper clutch member 91 presses the lower clutch member 92.

Hereinafter, the operation of the drain pump constructed as described above will be described.

6, when the drive shaft 20 and the impeller 30 are rotated by the drive motor 40, the water above the diaphragm 14 is pushed upward and the valve body 60 The valve body 60 is lifted upward to open the opening 14a.

Therefore, the outside water is sucked into the drain pipe body 10 through the water supply hole 51 and the absorption port 11, and then is pushed upward through the opening 14a, Water is discharged to the discharge pipe (13) connected to the discharge port (12) through the discharge port (12).

At this time, the valve body 60 is pushed up by the flow of water passing through the opening 14a, and the opening 14a is completely opened.

When the impeller 30 is rotated by the driving motor 40 and the foreign material adheres to the outer circumferential surface of the strainer 50 and the penetrating hole is clogged, The flow rate of water flowing into the drain pipe body 10 is reduced.

As the amount of water flowing into the drain pipe body 10 and passing through the opening 14a is reduced, the force of pushing the valve body 60 upward is weakened. As a result, As described above, the valve body 60 is lowered by its own weight.

When the valve body 60 is lowered, the upper clutch member 91 provided on the lifting body 61 of the valve body 60 is engaged with the upper clutch member 92 provided on the rotary shaft 70 So that the connection shaft 31 and the rotary shaft 70 are driven and connected.

Since the drive shaft 20, the impeller 30 and the connecting shaft 31 are rotated by the drive motor 40, the upper and lower clutch members 91, The rotation shaft 70 and the scrapper 80 are rotated so that the contact member 82 provided on the scrapper 80 is attached to the outer surface of the strainer 50 The foreign substance is scraped off and removed.

6, when the foreign matter attached to the outer circumferential surface of the strainer 50 is removed and the amount of water flowing through the water supply hole 51 is increased, So that the connection of the upper and lower clutch members 91 and 92 is released and the rotating shaft 70 and the scrapper 80 are stopped.

8, the valve body 60 is lowered due to its own weight, so that the opening 14a is closed by the valve body 60. As a result, Seal it.

When the opening 14a is sealed, the water stored in the drain pipe 10 can not flow back toward the lower absorption pipe 11.

The drain pump has a diaphragm 14 extending inwardly to be positioned below the impeller 30 and having an opening 14a formed at the center thereof at an absorption port 11 of the drain pipe body 10, A connection shaft 31 extending downward from the connection shaft 31 and connected to the connection shaft 31 so as to be positioned on the upper side of the partition plate 14 and connected to the opening 14a at the time of lowering, When the impeller 30 is rotated by the driving motor 40 and the water is sucked upward, the valve body 60 is raised by the pressure of water to be raised The valve body 60 is lowered by its own weight when the opening 14a is opened and the impeller 30 is stopped to seal the opening 14a so that the water inside the water pipe 10 flows backward downward prevent.

Therefore, when the impeller 30 is stopped, the water filled in the water pipe 10 flows back to the lower absorption port 11, the impeller 30 and the driving motor 40 are reversely rotated, Thus, there is an advantage that an error or damage to the controller connected to the driving motor 40 or the driving motor 40 can be prevented.

The valve body 60 has a vertically extending tube shape and includes a lifting tube 61 coupled to an outer side of the connecting shaft 31 so as to be able to move up and down on the connecting shaft 31, And a valve body 62 extending outwardly from the elevating tube 61 and coupled to the opening 14a to seal the opening 14a, A through hole 52 is formed in the upper portion of the strainer 50 and is rotatably coupled to the through hole 52. The strainer 50 is coupled to the rotating shaft 70, A scrapper 80 that is rotated together with the rotating shaft 70 to remove foreign matter adhering to the outer circumferential surface of the strainer 50 and a scraper 80 that rotates together with the lower and upper ends of the lifting tube 61 and the rotating shaft 70, (91, 92) are provided on the outer surface of the strainer (50) When the flow rate of water sucked into the water supply hole 51 is reduced and the valve body 60 is lowered by the upper and lower clutch members 91 and 92, 70 are mutually drivably connected to each other so that the scrapper 80 is rotated to remove foreign matter. When foreign matter is removed and the flow rate of water flowing through the water supply hole 51 is increased, 60 are lifted again, the connection of the upper and lower clutch members 91, 92 is released, and the scrapper 80 is stopped.

Therefore, even if foreign matter is adhered to the outer circumferential surface of the strainer 50, the scrapper 80 is selectively rotated to remove the foreign matter. Therefore, even when foreign matters are not attached to the outer circumferential surface of the strainer 50, It is possible to prevent the power of the drive motor 40 from being wasted or the contact member 82 of the scrapper 80 to be rotated in a state of tight contact with the outer circumferential surface of the strainer 50, .

The lower clutch member 92 provided on the rotary shaft 70 is elastically pressed to be raised by the elastic member 93 while being able to move up and down by the rotary shaft 70 but not to rotate, The upper and lower clutch members 91 and 92 are brought into mutual contact with each other when the valve body 60 is lowered to a certain height even if the valve body 60 is completely lowered and the opening 14a is not blocked, And when the drive motor 40 is stopped, the lower clutch member 92 is lowered so that the valve body 60 is completely lowered to close the opening 14a.

Therefore, foreign matter attached to the outer circumferential surface of the strainer 50 can be more effectively removed.

9 to 11 illustrate a second embodiment according to the present invention. At the lower end of the drain pipe body 10, an auxiliary drain pipe 15 through which water stored in the drain pipe body 10 is discharged is formed The auxiliary drainage port 15 is provided with an on-off valve 100 for opening and closing the auxiliary drainage port 15 and a water supply pipe 10 for measuring the speed and direction of the water flowing in the drainage pipe 10 inside the drainage pipe 10 A braking means 120 provided in the water pipe 10 for fixing the driving shaft 20 in operation so that the driving shaft 20 is not rotated; And control means (130) for controlling the operation of the braking means (120).

The auxiliary drainage port 15 is formed as close as possible to the diaphragm 14 and an extension pipe 15a extending to the outside is connected to the auxiliary drainage port 15. [

The opening / closing valve 100 is provided at the middle portion of the extension pipe 15a and includes a valve body 101 for opening and closing the middle portion of the extension pipe 15a in accordance with rotation, And a connection bar 103 connecting the operation lever 102 and the valve body 101. When the operator pulls the operation lever 102 upward or pushes the operation lever 102 downward, 101 is rotated to open and close the intermediate portion of the extension pipe 15a.

Therefore, in the state where the impeller 30 is stopped and the valve body 60 is lowered to close the opening 14a, the water inside the water pipe 10 is discharged for repairing the impeller 30 11, when the operator pulls the operation lever 102 upward, the valve body 101 is rotated to open the middle portion of the extension pipe 15a, 10 can be discharged to the outside through the extension pipe 15a.

The flow rate measuring means 110 is provided inside the water pipe 10 so as to be close to the impeller 30 so that the water inside the water pipe 10 is discharged to the outside through the absorption port 11, , It is configured to be able to detect it.

In other words, normally, when the impeller 30 is stopped, the valve body 60 is lowered to close the opening 14a, thereby preventing the water in the water pipe 10 from flowing back toward the absorption port 11 do.

However, if the operator can not open the opening / closing valve 100 or the valve body 60 can not close the opening portion 14a due to unintended reasons while the impeller 30 is stopped, The water inside the sieve 10 flows backward downward.

In this case, the flow rate measuring means 110 measures the flow rate of water backward and outputs the measured flow rate to the control means 130.

Since a variety of flow velocity measuring means 110 for measuring the flow direction of water and the velocity of water are developed and used, detailed description thereof will be omitted.

The braking means 120 is fixed to the inside of the drain pipe body 10 by a support bar 121 which is coupled to the outside of the middle portion of the driving shaft 20 and extends to the periphery thereof, So that the drive shaft 20 is not rotated.

The control means 130 operates the braking means 120 when it receives a signal from the flow rate measuring means 110 and senses that the water stored in the drain pipe 10 flows backward at a preset predetermined speed .

Therefore, when the opening / closing valve 100 is opened or the opening 14a is not completely closed by the valve body 60, and the water flows backward downward as shown in FIG. 11, the control means 130 Receives the signal of the flow rate measuring means 110 and senses it, and operates the braking means 120 to fix the drive shaft 20 so as not to rotate.

In the drain pump constructed as described above, an auxiliary drainage port 15 through which the water stored in the drainage pipe body 10 is formed is formed at a lower end of the drainage pipe body 10, and an open / close valve 100 is connected to the auxiliary drainage port 15. [ .

Therefore, when maintenance of the impeller 30 is performed, the opening / closing valve 100 is opened to discharge the water stored in the water pipe 10, which makes it easier to work.

A flow velocity measuring means 110 for measuring a velocity and a direction of water flowing in the water pipe body 10 inside the water pipe body 10; A braking means 120 for fixing the drive shaft 20 so as not to rotate and a control means 130 for receiving signals from the flow rate measuring means 110 and controlling the operation of the braking means 120, The control means 130 operates the braking means 120 to prevent the drive shaft 20 from rotating in the reverse direction when it is sensed that the water stored in the drain pipe 10 flows backward at a predetermined speed or more.

Therefore, when the opening / closing valve 100 is opened or the valve body 60 can not close the opening portion 14a due to unintended reasons and the water inside the water pipe 10 flows backward downward, There is an advantage that the driving shaft 20 and the driving motor 40 can be prevented from rotating in reverse.

12 to 14 illustrate a third embodiment according to the present invention in which the control means 130 sets the rotation speed of the drive motor 40 to a normal rotation speed and a low speed So that it can be adjusted by the rotation speed.

Preferably, the low-speed rotation speed is set to about 80 to 90% of the normal rotation speed.

The connection shaft 31 is provided with an ascending / descending detecting means 140 for detecting the ascending / descending of the valve body 60.

The elevation sensing means 140 uses a micro switch installed to be embedded in the circumferential surface of the connection shaft 31. When the elevating pipe body 61 of the valve body 60 is lowered to a predetermined height or lower, Signal.

Preferably, when the lower clutch member 91 of the valve body 60 is lowered to a height at which the upper clutch member 91 is in close contact with the lower clutch member 92, do.

When the control means 130 receives a signal from the elevation sensing means 140 and detects that the valve body 60 is lowered to a predetermined height or lower, the driving motor 40 is rotated at a predetermined low rotation speed .

Hereinafter, the operation of the drain pump constructed as described above will be described.

First, when the driving motor 40 is driven at a normal rotational speed to suck up water and discharge the water to the upper side, foreign matter adhering to the outer circumferential surface of the strainer 50 flows into the drain pipe body 10 The valve body 60 is lowered.

At this time, the height of the valve body 60 is gradually lowered as the flow rate flowing into the drain pipe 13 is reduced.

12, when the upper clutch member 91 is lowered to a height at which the upper clutch member 91 is brought into close contact with the upper surface of the lower clutch member 92, the control means 130 controls the up / And adjusts the rotational speed of the driving motor 40 to a low rotational speed.

At this time, the low-speed rotation speed is set to be lower by about 80 to 90% than the normal rotation speed at which the drive motor 40 is rotated under a general situation. When the rotation speed of the drive motor 40 is adjusted to a low- The flow rate of the water sucked into the drain pipe body 10 is further reduced by the impeller 30 so that the valve body 60 is further lowered as shown in FIG. , The upper clutch member 91 is firmly brought into close contact with the lower clutch member 92.

Accordingly, the scrapper 80 is rotated to remove foreign matter adhered to the outer circumferential surface of the strainer 50.

When foreign matter adhered to the outer circumferential surface of the strainer 50 is removed and the flow rate of water flowing into the water pipe body 10 through the water supply hole 51 is increased, When the valve body 60 is lifted up, the control means 130 receives the signal of the ascending / descending sensing means 140 and senses the signal. When the rotation speed of the driving motor 40 So that the impeller 30 is rotated rapidly.

In the drain pump thus configured, the valve body 60 is lowered to a preset height, and the rotational speed of the driving motor 40 is lowered so that the impeller 30 is slowly rotated so that the valve body 60 So that the upper and lower clutch members 91 and 92 are firmly adhered to each other and the scrapper 80 can be stably rotated.

That is, when the flow rate of the water sucked into the discharge tube 10 is reduced by the foreign substance attached to the outer circumferential surface of the strainer 50, the valve body 60 gradually becomes lower in height, and the upper and lower clutch members 91 and 92 are in close contact with each other, the scrapper 80 is rotated to remove foreign matter adhering to the outer circumferential surface of the strainer 50.

Meanwhile, since the flow rate of the water introduced into the discharge tube 10 is not constant, the flow of the water sucked into the discharge tube 10 due to the vortex is generated in the discharge tube 10, When the valve body 60 is lowered, the valve body 60 moves downward while being moved upward and downward.

The valve body 60 is moved up and down in a state where the valve body 60 is lowered to a height at which the upper and lower clutch members 91 and 92 come into close contact with each other, The upper clutch member 91 is lifted and lowered together with the valve body 60. As a result, the upper and lower clutch members 91 and 92 collide with each other repeatedly in tight contact with and spaced from each other, The side clutch members 91 and 92 can be quickly damaged.

However, in the present invention, when the valve body 60 is lowered to a height at which the upper and lower clutch members 91 and 92 come into close contact with each other, the control means 130 senses this through the up / down sensing means 140 , The speed of the drive motor 40 is adjusted to a low rotational speed so that the valve body 60 and the upper clutch member 91 are further lowered.

14, when the valve body 60 and the upper clutch member 91 are lowered, the valve body 60 and the upper clutch member 91 are engaged with the lower clutch member 92 The lower clutch member 92 is lowered so that the lower clutch member 92 is lowered. In this case, even when the upper clutch member 91 is lifted and lowered, the lower clutch member 92 is moved up and down to move the upper and lower clutch members 91, The upper and lower clutch members 91 and 92 can be prevented from repeatedly colliding with each other and being damaged.

10. Drain pipe body 20. Drive shaft
30. Impeller 40. Drive motor
50. Strainer 60. Valve body
70. Rotary shaft 80. Scrapers
91, 92. The upper and lower clutch members

Claims (5)

A drain pipe body 10 configured to extend in the vertical direction and having an absorption port 11 and a drain port 12 formed at the lower end and the upper end, respectively,
A drive shaft 20 extending vertically inside the drain pipe body 10,
An impeller 30 provided at a lower end of the driving shaft 20 so as to be positioned in the lower side of the water pipe body 10,
A drive motor 40 connected to the drive shaft 20 and a cylindrical shape extending in the vertical direction and having an upper surface opened and a plurality of water holes 51 formed at the periphery thereof, And a strainer (50) provided to extend downward to an absorption port (11) of the drain pump
The absorption pipe 11 of the water pipe 10 is provided with a diaphragm 14 extending inward to be positioned below the impeller 30 and having an opening 14a formed at the center thereof,
A connecting shaft 31 extending downward from the impeller 30,
And a valve body 60 which is movably coupled to the connecting shaft 31 so as to be positioned on the upper side of the diaphragm 14 and which is coupled to the opening 14a when it is lowered to close the opening 14a,
When the impeller 30 is rotated by the driving motor 40 and the water is sucked upward, the valve body 60 is raised by the pressure of the rising water to open the opening 14a, and the impeller 30 The valve body 60 is lowered by its own weight to close the opening 14a to prevent water in the drain pipe body 10 from flowing backward downward,
The valve body (60)
A lifting and lowering pipe body 61 having a pipe shape extending in the vertical direction and coupled to the connection shaft 31 so as to be able to move up and down but not to rotate,
And a valve body 62 extending outwardly from the elevating tube 61 and coupled to the opening 14a to seal the opening 14a,
A vertically oriented through hole 52 is formed at the center of the bottom surface of the strainer 50 and a rotary shaft 70 rotatably coupled to the through hole 52,
A scrapper 80 provided on the outer side of the strainer 50 and coupled to the rotary shaft 70 to be rotated together with the rotary shaft 70 to remove foreign matter adhered to the outer surface of the strainer 50,
Further comprising upper and lower clutch members (91, 92) provided respectively at a lower end of the lifting tube (61) and at an upper end of the rotating shaft (70)
The lower clutch member 92 provided on the rotary shaft 70 is elastically pressed to be lifted by the rotary shaft 70 but coupled with the elastic member 93 so as not to rotate,
When the valve body 60 is lowered, the upper and lower clutch members 91 and 92 come into close contact with each other and the drive shaft 20 and the rotary shaft 70 mutually drive through the lifting tube 61 and the connecting shaft 31 And the drain pump is connected to the drain pump.
delete delete A drain pipe body 10 configured to extend in the vertical direction and having an absorption port 11 and a drain port 12 formed at the lower end and the upper end, respectively,
A drive shaft 20 extending vertically inside the drain pipe body 10,
An impeller 30 provided at a lower end of the driving shaft 20 so as to be positioned in the lower side of the water pipe body 10,
A drive motor 40 connected to the drive shaft 20 and a cylindrical shape extending in the vertical direction and having an upper surface opened and a plurality of water holes 51 formed at the periphery thereof, And a strainer (50) provided to extend downward to an absorption port (11) of the drain pump
The absorption pipe 11 of the water pipe 10 is provided with a diaphragm 14 extending inward to be positioned below the impeller 30 and having an opening 14a formed at the center thereof,
A connecting shaft 31 extending downward from the impeller 30,
And a valve body 60 which is movably coupled to the connecting shaft 31 so as to be positioned on the upper side of the diaphragm 14 and which is coupled to the opening 14a when it is lowered to close the opening 14a,
When the impeller 30 is rotated by the driving motor 40 and the water is sucked upward, the valve body 60 is raised by the pressure of the rising water to open the opening 14a, and the impeller 30 The valve body 60 is lowered by its own weight to close the opening 14a to prevent water in the drain pipe body 10 from flowing backward downward,
At the lower end of the drain pipe (10), an auxiliary drain (15) for discharging water stored in the drain pipe (10) is formed,
And an opening / closing valve (100) provided in the auxiliary drain port (15)
A flow velocity measuring means 110 for measuring the velocity and direction of water flowing in the water pipe body 10 inside the water pipe body 10,
A braking means 120 provided in the drain pipe body 10 for fixing the drive shaft 20 so as not to rotate during operation,
Further comprising control means (130) for receiving signals of said flow rate measurement means (110) and for controlling the operation of said braking means (120)
The control means 130 operates the braking means 120 when it receives a signal from the flow rate measuring means 110 and senses that the water stored in the drain pipe 10 flows backward at a preset predetermined speed And a drain pump connected to the drain pump.
5. The method of claim 4,
Further comprising elevation sensing means (140) provided on the connection shaft (31) for sensing that the valve body (60) is lowered below a preset height,
The control means 130 is configured to receive the signal of the elevation sensing means 140 and to control the rotation speed of the driving motor 40,
When the valve body 60 is lowered to a predetermined height or lower through the ascending / descending detection means 140, the control means 130 controls the rotation speed of the driving motor 40 to be lower than the normal rotation speed And is driven at a low rotational speed.

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