KR102583740B1 - Fluid pump to prevent accumulation of foreign substances in the sealing part - Google Patents

Abstract

The present invention relates to a fluid pump for preventing foreign matter from accumulating in a sealing portion, and more specifically, to allow foreign matter introduced between the shaft and the motor casing to be smoothly discharged through the tapered space between the shaft and the motor casing. It relates to the formed fluid pump.

Description

Fluid pump to prevent accumulation of foreign substances in the sealing part}

The present invention relates to a fluid pump for preventing foreign matter from accumulating in a sealing portion, and more specifically, to allow foreign matter introduced between the shaft and the motor casing to be smoothly discharged through the tapered space between the shaft and the motor casing. It relates to the formed fluid pump.

As shown in FIG. 1, a conventional fluid pump (1) includes an impeller (13), an impeller casing (10) provided with an inlet (11) and an outlet (12) and in which the impeller (13) is disposed, A motor casing 20 coupled to the impeller casing 10, a drive motor shaft 21 connected to a drive motor inside the motor casing 20, one end coupled to the impeller 13, and the other end It is configured to include a shaft 14 installed in conjunction with the drive motor shaft 21 to rotate the impeller 13 through the power of the drive motor.

Accordingly, the fluid flowing into the suction port 11 of the impeller casing 10 is pressurized as the impeller 13 rotates and can be discharged to the outside through the discharge passage and the discharge port 12.

At this time, in the conventional fluid pump, part of the fluid discharged near the outer periphery of the impeller 13 flows into the area between the shaft 14 of the impeller 13 and the motor casing 20 (point A), causing impurities or foreign substances to become trapped. Problems may arise.

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As a result, each element that makes up the sealing part is worn or damaged, shortening the lifespan of the sealing part, which may cause malfunction. In addition, damage to sealing parts causes problems such as fluid leaking out of the pump, which reduces the reliability of the pump.

Meanwhile, Patent Publication No. 2022-0070623 describes a water pump structured to prevent foreign substances from accumulating in the space of the lower casing where the rotor is accommodated.

The present invention was devised to solve the problems of the prior art as described above, and provides a fluid pump that is formed so that foreign substances can be discharged without accumulating by forming a tapered space between the shaft and the motor casing. It has a purpose.

In order to achieve the above object, a fluid pump for preventing accumulation of foreign substances in the sealing portion according to the present invention includes an impeller casing provided with an inlet and an outlet; A motor casing integrally coupled with the impeller casing; An impeller installed inside the impeller casing; A drive motor installed inside the motor casing; And one end is coupled to the impeller, and the other end is linked with a drive motor to include a shaft formed to transmit the power of the drive motor to the impeller, and a tapered space between the shaft and the motor casing. It is characterized by the formation of wealth.

In the fluid pump of the present invention, a tapered space is formed between the shaft and the motor casing. Accordingly, when the impeller rotates at high speed by driving the pump, centrifugal force is applied to the fluid due to the rotation of the shaft in the space, and as a result, foreign substances introduced into the space can be discharged out of the space.

In the case of a conventional fluid pump, the space between the shaft and the motor casing is horizontal, so if foreign matter flows between the shaft and the motor casing, the foreign matter cannot be discharged and accumulates in the gap between the shaft and the motor casing, sealing the seal. This caused wear of the part, resulting in damage to the sealing part.

However, the fluid pump of the present invention is provided with a tapered space in the space between the shaft and the motor casing where the centrifugal force of the impeller can act, so that even if foreign matter flows between the shaft and the motor casing, it does not accumulate and flows outward from the space. It can be discharged smoothly.

In addition, guide grooves of various shapes may be formed on the tapered surface of the space. The shape of the guide grooves may be, for example, a plurality of spiral-shaped grooves formed in accordance with the rotation direction of the fluid from the center, It may be a plurality of arc-shaped grooves formed in accordance with the direction of rotation, or it may be a plurality of linear grooves.

The guide groove is such that when the impeller rotates due to the driving of the motor, the fluid flowing into the space of the impeller flows along a passage extending outward from the center of the space, that is, a spiral or straight guide groove, causing a vortex in the fluid. It allows foreign substances in the fluid to be discharged more smoothly to the outside of the space.

Accordingly, even if foreign matter enters the space, the foreign matter can be swirled by a vortex and smoothly discharged out of the space.

As described above, the present invention has a structure that can prevent foreign substances from accumulating through a tapered space between the shaft and the motor casing and various types of guide grooves formed on the tapered surface of the space.

Accordingly, the fluid pump of the present invention can effectively solve the problem of shortening the lifespan of sealing parts, thereby improving the reliability of the pump.

1 is a diagram showing a conventional fluid pump.
Figure 2 is a diagram showing a fluid pump for preventing foreign substances from accumulating in the sealing portion according to an embodiment of the present invention.
Figure 3 is a diagram showing a fluid pump according to second to fourth embodiments of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the attached drawings. However, some components that are unrelated to the gist of the invention will be omitted or compressed, but the omitted components are not necessarily components that are unnecessary in the present invention, and may be used in combination by those skilled in the art to which the present invention pertains. You can.

Figure 2 relates to a fluid pump 1 for preventing accumulation of foreign substances according to an embodiment of the present invention.

The fluid pump (1) of the present invention is provided with an inlet (11) and an outlet (12), an impeller casing (10) on which an impeller (13) is disposed, is coupled to the impeller casing (10), and has a drive motor therein. The motor casing 20 on which (21) is disposed, one end of which is coupled with the impeller 13, and the other end of which is linked with the drive motor 21, are connected to the impeller (21) through the power of the drive motor 21. It is configured to include a shaft 14 installed to rotate 13).

The impeller 13 is rotatably accommodated in the water chamber of the impeller casing 10, and the motor casing 20 may be formed in the form of a container made of metal, with an empty interior and an open top. , It is coupled to the impeller casing 10, and a motor 21 is provided therein.

One end of the shaft 14 is coupled to the impeller 13, and the other end is inserted into the drive shaft of the motor 21, and rotates as the motor 21 is driven.

In addition, a sealing part 22 may be provided at the assembly part of the motor casing 20 and the shaft 14 to watertight the inside of the water chamber, and some parts of the sealing part 22 are made of highly elastic rubber. It can be made of materials such as silicon or silicone.

The impeller 13 pumps fluid through rotation. The impeller 13 has blades formed along the circumferential direction between the upper and lower plates spaced apart from each other, and the upper plate is formed to be spaced apart from the motor casing 20 at a certain distance. At this time, the shape of the blade can be formed in various forms such as screw type, spurt type, Helimax screw type, open type, and grinder type.

The impeller casing 10 at the top of the central part of the impeller 13 is provided with a fluid inlet 11 through which fluid flows, and the impeller casing 10 near the outer periphery of the impeller 13 has a fluid outlet 12 through which fluid is discharged. is provided. Accordingly, the fluid flowing into the intake port 11 of the impeller casing 10 is pressurized as the impeller 13 rotates, flows along the discharge passage, and can be discharged to the outside through the discharge port 12.

In addition, a space portion 30 formed along the circumference of the shaft 14 is provided at the assembly portion of the motor casing 20 and the shaft 14. The space 30 is formed in a tapered shape with a cross-sectional area that gradually widens in the direction from the motor 21 to the impeller 13.

Accordingly, when the impeller 13 rotates at high speed by driving the pump, centrifugal force due to the rotation of the fluid acts on the space 30, and as a result, foreign substances flowing into the space 30 are moved to the space 30. ) is discharged outward.

Specifically, the fluid is subjected to force in the radial outward direction of the shaft 14 by centrifugal force. At this time, since a tapered surface is formed in the space 30, sealing is performed along the tapered surface of the space 30. Fluid moves from the unit 22 toward the impeller 13. At this time, foreign matter contained in the fluid moves along the tapered surface of the space portion 30 along with the fluid and moves to the outside of the sealing portion 22 through the space between the upper plate of the impeller 13 and the motor casing 20. Foreign substances in the sealing part 22 are discharged through the discharge port 12.

In the case of a conventional fluid pump, the space between the shaft 14 and the motor casing 20 is horizontal, so if foreign matter flows between the shaft 14 and the motor casing 20, the foreign matter is not discharged. Unable to do so, it accumulates in the gap between the shaft 14 and the motor casing 20, causing wear of the sealing portion 22, resulting in damage to the sealing portion 22.

However, the fluid pump 1 of the present invention is provided with a tapered space 30 in the space between the shaft 14 and the motor casing 20, where the centrifugal force of the impeller 13 can act, so that the shaft 14 ) Even if foreign matter flows between the motor casing 20 and the motor casing 20, it does not accumulate and can be smoothly discharged outward from the space 30.

In the first embodiment of the present invention, an example in which the tapered surface 31 of the space 30 is formed in a flat shape has been described. However, the tapered surface 31 of the space 30 is not limited to this flat shape, and may be formed with various types of guide grooves 32 as shown in FIG. 3.

Figure 3(a) shows the tapered surface 31 of the space 30 according to the second embodiment of the present invention, and the inner wall of the space 30 has a long line extending from the center to the outer surface along the circumferential direction. A spiral-shaped guide groove 32 is formed.

The guide groove 32 is formed in a spiral shape according to the direction of rotation of the fluid, and the groove induces the movement of the fluid in the spiral direction. In addition, since the helical guide groove 32 is connected to the outside of the tapered surface 31 (to the impeller 13 side), the movement of fluid is eventually guided toward the impeller 13 side, sealing portion 22. There is an effect that foreign substances are discharged more effectively from the impeller 13 side.

In addition, Figure 3(b) shows the tapered surface 31 of the space 30 according to the third embodiment of the present invention, and a plurality of arc-shaped guide grooves 32 are formed from the center of the tapered surface 31. is formed in

The guide groove 32 is formed in an arc shape in accordance with the direction of rotation of the fluid on the tapered surface 31, so that fluid movement in the arc direction is induced by the guide groove 32, and the guide groove has an arc shape. (32) is connected to the outside of the tapered surface (31) (to the impeller (13) side), so that the movement of the fluid is eventually guided toward the impeller (13) side, so foreign matter is moved from the sealing portion (22) to the impeller (13) side. This has the effect of making the discharge more effective.

In addition, Figure 3(c) shows the tapered surface 31 of the space 30 according to the fourth embodiment of the present invention, and a plurality of straight guide grooves 32 are formed from the center of the tapered surface 31. is formed in The straight guide groove 32 has a shape whose width increases from the center to the outside.

The guide groove 32 is such that when the impeller 13 rotates by driving the motor 21, the fluid flowing into the space 30 of the impeller 13 expands outward from the center of the space 30. As it flows along the passage, that is, the spiral or straight guide groove 32, it creates a vortex in the fluid so that foreign substances in the fluid can be discharged more smoothly to the outside of the space 30.

Accordingly, even if foreign matter flows into the space 30, the foreign matter can be swirled by a vortex and smoothly discharged outward from the space 30.

As described in detail above, the fluid pump of the present invention has a tapered space formed between the shaft and the motor casing. Accordingly, when the impeller rotates at high speed by driving the pump, centrifugal force is applied to the fluid due to the rotation of the shaft in the space, and as a result, foreign substances introduced into the space can be discharged out of the space.

In the case of a conventional fluid pump, the space between the shaft and the motor casing is horizontal, so if foreign matter flows between the shaft and the motor casing, the foreign matter cannot be discharged and accumulates in the gap between the shaft and the motor casing, sealing the seal. This caused wear of the part, resulting in damage to the sealing part.

However, the fluid pump of the present invention is provided with a tapered space in the space between the shaft and the motor casing where the centrifugal force of the impeller can act, so that even if foreign matter flows between the shaft and the motor casing, it does not accumulate and flows outward from the space. It can be discharged smoothly.

In addition, guide grooves of various shapes may be formed on the tapered surface of the space. For example, the guide groove may be in the form of an annular shape extending from the center to the outer surface along the circumferential direction, and a plurality of guide grooves may be formed. It may be in the form of a spiral, or it may be in the form of multiple straight lines.

The guide groove is such that when the impeller rotates due to the driving of the motor, the fluid flowing into the space of the impeller flows along a passage extending outward from the center of the space, that is, a spiral or straight guide groove, causing a vortex in the fluid. It allows foreign substances in the fluid to be discharged more smoothly to the outside of the space.

Accordingly, even if foreign matter enters the space, the foreign matter can be swirled by a vortex and smoothly discharged out of the space.

As described above, the present invention has a structure that can prevent foreign substances from accumulating through a tapered space between the shaft and the motor casing and various types of guide grooves formed on the tapered surface of the space.

Accordingly, the fluid pump of the present invention can effectively solve the problem of shortening the lifespan of sealing parts, thereby improving the reliability of the pump.

The preferred embodiments of the present invention described above have been disclosed for illustrative purposes, and those skilled in the art will be able to make various modifications, changes, and additions within the spirit and scope of the present invention, and such modifications and changes will be possible. and additions should be regarded as falling within the scope of the patent claims of the present invention.

1: Fluid pump
10: Impeller casing
11: Inlet
12: outlet
13: Impeller
14: shaft
20: Motor casing
21: Drive motor
22: Sealing part
30: space part
31: Taper surface
32: Guide home

Claims (3)

Impeller casing provided with an inlet and an outlet;
A motor casing integrally coupled with the impeller casing;
An impeller installed inside the impeller casing;
A drive motor installed inside the motor casing; and
One end is coupled to the impeller, and the other end is a shaft interlocked with a drive motor to transmit the power of the drive motor to the impeller,
A tapered space is formed between the shaft and the motor casing,
A plurality of guide grooves are formed on the tapered surface of the space,
The shape of the plurality of guide grooves is straight,
The impeller is,
The top plate of the impeller is formed to be spaced apart from the motor casing at a certain distance,
As the impeller rotates, a centrifugal force due to the rotation of the fluid acts on the space, causing foreign substances flowing into the space between the shaft and the motor casing to move along the tapered surface of the space to form a space between the upper plate of the impeller and the motor casing. It is discharged through the outlet through the space between,
A fluid pump for preventing foreign substances from accumulating in the sealing portion, characterized in that the plurality of guide grooves have a straight shape and a shape whose width expands toward the outside.
According to paragraph 1,
A fluid pump for preventing foreign substances from accumulating in the sealing portion, wherein the sealing portion formed at the assembly portion of the motor casing and the shaft is made of rubber or silicone material.
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