KR101340579B1 - Apparatus for water flow induction - Google Patents

Abstract

The present invention relates to an inductive device for water flow which induces stable flow of water discharged by the operation of an underwater pump by preventing vortex flow from the outer side of the lower end part of a column pipe with respect to the flow of water discharged from the water pump while improving discharging capability of the pump and protects an impeller by preventing foreign materials from being introduced to the side of the impeller, thereby preventing a pump failure. To this end, the present invention comprises: a discharging hole which is installed on one side of a T-pipe with a sealed top part with a top cover to discharge water discharged from the underwater pump via a column pipe, wherein the inductive device for water flow is installed in the lower side to discharge water via the discharging hole after passing through the column pipe; a fixed hole which is installed in the lower end of the column pipe and is inclined toward an inner side in a downward direction; and an inductive steel mesh which is prepared in a hollow spherical shape that has a plurality of holes such that the outer surface is welded to be fixed on the inner surface of the lower end of the fixed hole and enables the flow of water to be guided to the side of the discharging hole via the column pipe.

Description

Apparatus for water flow Induction}

The present invention relates to a water flow inducing apparatus, and more particularly, to prevent the vortex phenomenon outside the lower end of the column pipe with respect to the flow of water discharged from the submersible pump to induce a stable flow of water discharged by the operation of the submersible pump It is possible to prevent the failure of the submersible pump by improving the output of the pump and preventing the inflow of foreign substances to the impeller, thereby preventing the failure of the submersible pump. will be.

In general, a water pump is a general term electric pump that operates in water, and is mainly used for pumping water, especially industrial water, liver water, power water, hot spring water, tap water supply, high-rise building water supply, It is used in various applications such as agricultural water, sanitation and swimming pool water supply.

The submersible pump is operated in a submerged state, and a rotor of an electric motor driven when external power is supplied is connected to a drive shaft, and an impeller integrally connected to an end thereof when the drive shaft rotates is rotated in a fluid. It is to discharge to the outside having a constant head.

The submersible pump is usually installed at the inner lower portion of the column pipe, and the T-pipe along with the column pipe is a pipe for discharging the water pumped through the submersible pump to the outside.

In other words, the top cover installed inside the upper end of the T-pipe may be referred to as a water flow guide device for guiding the water discharged through the column pipe to be discharged by changing the direction of the T-pipe. .

In addition, the water flow induction apparatus as described above has a separate water flow not only on the upper end of the T-pipe, but also on the lower end side of the column pipe as vortices occur when the impeller of the submersible pump rotates. Induction apparatus should be applied, but conventionally, such a separate water flow induction apparatus has not been developed.

The specific configuration of the water flow guide device according to the prior art as described above is as shown in Figures 1a and 1b.

First, Figure 1a shows a top cover 100 as a water flow induction apparatus, the socket 112 and the socket pipe 113 and the air belt flange 114 and the air belt pipe 115 in the upper and lower portions of the top plant 111 ) Are protruded from each other, and the lift flange 116 is protruded from the top of the top plant 111.

That is, the top cover 100 as described above is installed in the upper end of the T-pipe 200 as shown in Figure 1b to change the direction of the water discharged from the column pipe 300 to guide the discharge to the outside It is a flow guide device.

In other words, the water flow induction apparatus according to the prior art described above, as shown in FIG. 1B, a considerable amount of water discharged through the column pipe 300 hits the top cover 100 and does not proceed any further. While causing the vortex as shown in the final discharge through the discharge port 201 formed on one side of the T-pipe (200).

In addition, the water flow guide device according to the prior art described above is not provided separately to the lower end of the column pipe 300 separately, and thus the impeller of the submersible pump 400 installed inside the lower end of the column pipe 300. As shown in FIG. 1, a vortex phenomenon occurs from the outside of the bottom of the column pipe 300 due to the earth output generated as the 410 rotates.

Therefore, the output power of the submersible pump 400 is lowered, causing a problem that the flow rate discharged by the pump is lowered.

In addition, since the lower end of the column pipe 300 in which the submersible pump 400 is installed is opened, there is a problem that foreign matter may flow into the impeller 410 side of the submersible pump 400, and thus the impeller ( There was a problem in that the foreign matter is introduced into the 410) to cause a failure of the submersible pump, thereby lowering the durability of the pump.

Therefore, by preventing the vortex phenomenon occurring outside the lower end of the column pipe, it stably induces the flow of water discharged by the operation of the submersible pump, improves the output of the pump, and prevents the inflow of foreign substances to the impeller to protect the impeller. By doing so, it is possible to prevent the failure of the submersible pump, and accordingly, it is required to research and develop a water flow induction apparatus that can significantly improve the durability of the submersible pump.

In order to solve the above problems, the present invention is provided with a fixture, an induction wire mesh and the washing ball to prevent the vortex phenomenon of the flow of water discharged from the underwater pump to the outside of the bottom of the column pipe flow of water discharged by the operation of the underwater pump It is an object of the present invention to provide a water flow induction apparatus that can stably induce a high flow rate and improve the output power of a pump.

Another object of the technology according to the present invention is to provide a fixture, a guide wire mesh and a washing ball to prevent the inflow of foreign matter to the impeller side, and to protect the impeller by preventing the inflow of foreign matter.

In addition, the technique according to the present invention has an object to significantly improve the durability of the underwater pump by protecting the impeller by preventing the inflow of foreign matter to the impeller side.

The present invention for achieving the above-mentioned objects is as follows. That is, the water flow induction apparatus according to the present invention in the process of the water discharged from the water pump is discharged through the discharge port is formed on one side of the T-pipe closed with the top cover via the column pipe, the top of the column pipe A water flow guide device fixed to the lower side to guide the flow of water through the T-pipe to the discharge port through the column pipe, the water flow guide device, fixed to the bottom of the column pipe, the fixture is formed inclined downward inward; And a hollow spherical shape having a plurality of through holes on the inner surface of the lower end of the fastener, the outer surface of which is fixed by welding, to guide the flow of water through the column pipe to the discharge port of the T-pipe. .

Here, the fastener is an upper fixing part which is fixed in close contact with the bottom edge of the column pipe, an extension part which is formed to be inclined downwardly inwardly downward from the inner end of the upper fixing part and to extend outwardly with a predetermined angle from the lower end of the extension part. It is preferable that the predetermined length is formed to be formed of a lower fixing part that is fixed by welding the outer surface and the inner surface of the induction wire mesh in close contact.

In this case, the induction wire mesh is fixed to the outer surface is welded to the inner surface of the lower end of the fixture, the welded fixing so that the inner surface of the lower fixing portion of the fixture in close contact with the spherical outer surface of the guide wire mesh.

Further, the lower fixing part is formed to be rounded upward inward to correspond to a predetermined length from the position slightly away from the center of the outer surface of the induction wire mesh to the upper side of the induction wire mesh in the horizontal direction with respect to the spherical outer surface of the induction wire mesh. It is preferable that the welding is fixed to be in close contact along the circumferential direction.

In addition, the cleaning wire is filled with a plurality of inside the induction wire mesh so as to prevent foreign matter from flowing into the impeller of the submersible pump flows inside the induction wire mesh is configured to further comprise a washing ball for washing the through-holes of the induction wire mesh Good.

At this time, the washing ball has a diameter larger than the through-hole of the induction wire mesh, it is preferably formed of a ceramic material so that the damage can be suppressed even in repeated friction with the induction wire mesh.

Referring to the effect of the water flow induction apparatus according to the present invention.

First, by providing a fixture, a guide wire mesh and a washing ball to prevent the flow of water discharged from the submersible pump outside the lower end of the column pipe to guide the flow of water discharged by the operation of the submersible pump and at the same time the output of the pump Can improve.

Second, it is possible to prevent the inflow of foreign matters to the impeller side by having a fixture, a guide wire mesh and a washing ball, it is possible to protect the impeller by preventing the inflow of foreign matters.

Third, it is possible to significantly improve the durability of the submersible pump by protecting the impeller by preventing the inflow of foreign matter to the impeller side.

Figure 1a is a front view showing a water flow guide device according to the prior art.
Figure 1b is a use state configuration showing a state using a water flow induction apparatus installed in accordance with the prior art.
Figure 2 is an exemplary view showing an installation state of the water flow guide device according to the invention.
Figure 3 is a sectional view showing the main part of the main portion of the water flow guide apparatus according to the present invention.
Figure 4 is a perspective view showing the main fixture in the water flow guide device according to the present invention.
Figure 5 is a state diagram showing the use of water flow when using the water flow guide device according to the invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the water flow guide device according to the present invention.

Figure 2 is an exemplary view showing the installation state of the water flow guide device according to the invention, Figure 3 is a sectional view showing the main part of the main portion of the water flow guide device according to the invention, Figure 4 is a water flow according to the present invention Fig. 5 is a perspective view showing a fixture that is a main part of the induction apparatus, and Fig. 5 is a state diagram showing the water flow when using the water flow induction apparatus according to the present invention.

As shown in Figures 2 to 5, the water flow induction device 50 according to a preferred embodiment of the present invention is the water discharged from the water pump 40 through the top of the top cover 10 via the column pipe 30 Is discharged through a discharge port 21 formed on one side of the sealed T-pipe 20, is fixedly installed on the lower side of the column pipe 30 through the column pipe 30 and the T-pipe ( It is a device for inducing the flow of water to the discharge port 21 through 20.

Here, the submersible pump 40 is installed inside the lower end of the column pipe 30, wherein the submersible pump 40 is provided with an impeller 41 in the lower portion to the water upwards by the impeller 41 The discharge is discharged through the discharge port 21 formed at one side of the T-pipe 20.

On the other hand, the water flow guide device 50 is composed of a fixture 51, a guide wire 55 largely, specifically, the fixture 51 is fixed to the column pipe 30, the lower end inclined downward Is formed.

In particular, the fastener 51 has an upper fixing portion 52 which is tightly fixed to the lower edge of the column pipe 30, and an extension part which is formed to be inclined downward inward from an inner end of the upper fixing portion 52. And a lower fixing part 54 formed to extend a predetermined length so as to extend outwardly from the lower end of the extension part 53 and the outer surface and the inner surface of the induction wire mesh 55 to be welded and fixed. This is preferred.

In addition, the induction wire mesh 55 is provided in a hollow spherical shape having a plurality of through-holes 56, the outer surface of which is fixed to the inner surface of the lower end of the fixture 51.

The water flow guide device 50 according to the present invention described above is filled with a plurality of induction wire mesh 55 inside the induction by the flow rate to prevent foreign matter from entering the impeller 41 of the submersible pump 40 It is preferable to further comprise a washing ball (57) for flowing in the wire mesh 55 to wash the through hole 56 of the guide wire mesh (55).

At this time, the washing ball 57 is filled with a plurality of induction wire mesh 55 inside the induction wire mesh 55 by the flow rate to prevent foreign matter from entering the impeller 41 of the submersible pump 40 In the flow will be to wash the through hole 56 of the wire mesh 55.

On the other hand, in the water flow induction device 50 according to the present invention as described above, the induction wire mesh 55 is the outer surface is fixed to the inner surface of the lower end of the fixture 51, the lower height of the fixture 51 It is preferable that the inner surface of the government part 54 is welded to be in close contact with the spherical outer surface of the induction wire mesh 55.

Further, the lower fixing part 54 is formed to be rounded upwardly inwardly corresponding to a predetermined length toward the upper side of the outer surface of the induction wire mesh 55 from a position slightly away from the center of the outer surface of the induction wire mesh 55 to the upper side. It is preferable that the welding is fixed to be in close contact with the circumferential direction in the horizontal direction with respect to the spherical outer surface of the wire mesh 55.

That is, the lower fixing part 54 of the fixture 51 is provided so that the inner diameter of the lower end is smaller than the diameter of the outer surface of the induction wire mesh 55, that is, the induction wire mesh 55 is the lower The diameter of the outer surface is formed to be slightly larger than the diameter of the lower inner side of the fixing portion 54 is provided in the shape of a mesh type.

In addition, as described above, the induction wire mesh 55 is provided in a spherical shape of the mesh type, so that the outer surface of the induction wire mesh 55 having such a shape is in close contact with the inner surface of the lower fixing portion 54 so as to cover the whole in the circumferential direction. It is preferable to fix the welding, thereby stably fixing the induction wire mesh 55 to the lower fixing part 54.

On the other hand, when the state of the water flow is induced in the water flow induction device 50 according to the present invention as described above, as follows.

First, the submersible pump 40 is operated and water outside the column pipe 30 is introduced into the column pipe 30 by a toe output generated by rotating the impeller 41 of the submersible pump 40.

At this time, the conventional vortices are prevented from occurring on the outer side of the lower end of the column pipe 30, and the prevention of such vortices is prevented by the water flow induction device 50 fixed to the lower end of the column pipe 30. Is done.

That is, water discharged upward by the rotation of the impeller 41 from the outside of the column pipe 30 and introduced into the column pipe 30 is the water flow guide device 50, that is, the column pipe ( 30) It is guided upward while preventing the vortex that occurred outside the column pipe 30 through the induction wire mesh 55 fixed to the lower end by the fixture 51.

As described above, the water introduced into the column pipe 30 by the impeller 41 through the induction wire mesh 55 passes through the T-pipe 20 by the earth output of the impeller 41. It is discharged through the discharge port 21 provided on one side of the T-pipe (20).

The water flow guide device 50 according to the present invention as described above is provided with the fixture 51, the guide wire mesh 55 and the washing ball 57 by the flow of water discharged from the underwater pump 40 to the column By preventing the vortex phenomenon outside the lower end of the pipe 30 can stably induce the flow of water discharged by the operation of the submersible pump 40 and at the same time can improve the output of the pump.

In addition, by having the fixture 51, the guide wire mesh 55 and the washing ball 57 to prevent the inflow of foreign matter to the impeller 41 side, the impeller 41 by preventing the inflow of foreign matter. Will be able to protect.

In addition, by preventing the inflow of foreign matter to the impeller 41 side to protect the impeller 41, the durability of the submersible pump 40, the impeller 41 is installed in the lower side can be significantly improved.

In addition, the water flow guide device 50 according to the present invention as described above is filled with a plurality of the induction wire mesh 55 is a flow rate to prevent foreign matter from entering the impeller 41 of the submersible pump 40 By flowing in the induction wire mesh 55 by preferably further comprising a washing ball 57 for washing the through-hole 56 of the induction wire mesh 55.

Here, the washing ball 57 is filled with a plurality of the induction wire mesh 55 inside the induction wire mesh 55 by the flow rate to prevent foreign matter from flowing into the impeller 41 of the submersible pump 40. In the flow will be to wash the through hole 56 of the wire mesh 55.

At this time, the washing ball 57 is the induction wire mesh (the inside of the induction wire mesh 55 by the output of the water discharged into the column pipe 30 by the impeller 41 of the submersible pump 40 ( 55) It is preferable to be formed of a ceramic material so that the damage can be suppressed due to repeated friction with the surface.

As described above, since the washing ball 57 is formed of a ceramic material, damage caused by repeated friction of the flow rest ball 57 in the induction wire mesh 55 may be minimized, and thus, the washing ball Semi-permanent use of (57) is possible.

In addition, the semi-permanent use of the washing ball 57 is easy to maintain the water flow guide device 50, it is possible to significantly reduce the cost of maintenance.

In addition, the washing ball 57 is caused by the output of the water discharged into the column pipe 30 by the impeller 41 of the submersible pump 40 according to the output of the water inside the induction wire mesh 55. While flowing, the through hole 56 of the induction wire mesh 55 may prevent foreign substances from being caught.

Therefore, cleaning of the through hole 52 of the guide wire mesh 51 may be performed by preventing foreign substances from being caught in the through hole 52 of the guide wire mesh 51 through the washing ball 55.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, the invention is not limited thereto. Various modifications may be made by those skilled in the art. Are included in the scope of the present invention.

10: Top cover 20: T-pipe
21: discharge port 30: column pipe
40: submersible pump 41: impeller
50: water flow guide device 51: fixture
52: upper fixing part 53: extension part
54: Lower Fixation 55: Guided Wire Mesh
56: through hole 57: washing ball

Claims (6)

In the process of the water discharged from the water pump 40 is discharged through the discharge port 21 formed on one side of the T-pipe 20, the top of which is closed to the top cover 10 via the column pipe 30, In the water flow induction apparatus 50 is fixed to the lower side of the column pipe 30 to guide the flow of water through the T-pipe 20 through the column pipe 30 to the discharge port 21,
A fixture 51 fixed to the bottom of the column pipe 30 and formed to be inclined downwardly; And
It is provided in the shape of a hollow sphere having a plurality of through holes 56, the outer surface is fixed to the inner surface of the lower end of the fixture 51 through the column pipe 30 to the discharge port 21 side of the T-pipe 20 Water flow guide device comprising the induction wire mesh 55 to guide the flow of water. The method of claim 1,
The fixture 51 is an upper fixing portion 52 which is fixed in close contact with the lower edge of the column pipe 30, and the extension portion 53 is formed to be inclined downward downward from the inner end of the upper fixing portion 52. And a predetermined length extending to extend outwardly from the lower end of the extension part 53 so that the outer surface and the inner surface of the guide wire mesh 55 are tightly welded and fixed by welding. Flow guide. 3. The method of claim 2,
The induction wire mesh 55 has an outer surface welded to an inner surface of a lower end of the fixture 51, and the inner surface of the lower fixing portion 54 of the fixture 51 closely contacts the spherical outer surface of the induction wire mesh 55. Water flow guide device characterized in that the welding fixed. The method of claim 3,
The lower fixing part 54 is formed to be rounded upward inwardly corresponding to a predetermined length from the position slightly away from the center of the outer surface of the induction wire mesh 55 to the upper side of the outer surface of the induction wire mesh 55. The water flow guidance device characterized in that the welding is fixed to be in close contact with the circumferential direction in the horizontal direction with respect to the spherical outer surface of 55). The method of claim 1,
The induction wire mesh 55 flows inside the induction wire mesh 55 by a flow rate so as to prevent the inflow of foreign matter into the impeller 41 of the submersible pump 40 by filling a plurality of pieces in the induction wire mesh 55. Water flow guide device, characterized in that further comprises a washing ball (57) for washing the through hole (56). The method of claim 5,
The washing ball 57 has a larger diameter than the through hole 56 of the induction wire mesh 55, and is formed of a ceramic material so that the damage can be suppressed even after repeated friction with the induction wire mesh 55. Water flow induction device.

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