KR20100026735A - Drain pump - Google Patents

Abstract

PURPOSE: A drain pump is provided to prevent foreign materials from being remained in an internal space of a housing by discharging the foreign materials with fluid. CONSTITUTION: A drain pump comprises a housing(110), partition plates(120), casings(130), and an impeller(140). An inlet hole(116) is formed in one side of the housing. An outlet pipe is formed in the other side of the housing. The partition plates are coupled to inside the housing. The casings are coupled between the partition plates and one surface of the housing. And the casings accept fluid from the inlet hole. The impeller is rotatably installed inside the casings.

Description

Drain Pump {DRAIN PUMP}

The present invention relates to a drain pump.

The pump refers to a device for transferring fluid by the rotation of the motor, and the drain pump refers to a pump that is immersed in water to discharge water.

FIG. 1A is an outline view of a conventional drain pump, and FIG. 1B is a cross-sectional view illustrating main parts of FIG. 1A.

As shown, the upper housing 11 and the lower housing 13 coupled to each other are provided. The partition plate 21 which encloses the upper housing 11 side and the lower housing 13 side is couple | bonded with the substantially boundary part of the upper housing 11 and the lower housing 13, and is attached to the lower surface of the partition plate 21. The casing 23 is coupled.

In addition, an impeller 31 is rotatably installed in the casing 23, and a motor 33 for rotating the impeller 31 is installed in the upper housing 11.

Inlet hole (13a) is formed on the side of the lower housing 13, discharge pipe (11a) is formed in communication in the upper housing (11).

The fluid introduced into the inflow hole 13a is discharged to the discharge pipe 11a side through the communication hole 21a formed in the partition plate 21 by force by the impeller 31.

Drain pumps are installed and used underwater.

However, in the conventional drainage pump as described above, since there is no means for cleaning the portion between the lower housing 13 and the casing 23, foreign matter remains in the portion between the lower housing 13 and the casing 23. do. As a result, foreign matter remaining in the portion between the lower housing 13 and the casing 23 flows into the impeller 31 together with the fluid, thereby damaging the pump. Therefore, there is a disadvantage in that the durability of the product is lowered.

The present invention has been made to solve the problems of the prior art as described above, the object of the present invention is to provide a drain pump that can improve the durability.

Drainage pump according to the present invention for achieving the above object, the inlet hole is formed on one side surface side, the other surface side the discharge pipe is formed in communication with the housing; A partition plate coupled to the interior of the housing to seal the compartment and the interior of the housing and the discharge tube side of the housing and communicate with the discharge tube side; A casing that is hermetically coupled between the partition plate and one surface of the housing to accommodate the fluid introduced into the inlet; The pump is rotatably installed in the casing and forcibly discharging the fluid in the casing to convey the impeller through the communication hole to the discharge pipe side,

The casing is formed with a guide hole for guiding a part of the fluid discharged from the impeller to be discharged to one surface side of the aircraft housing through the casing,

A discharge hole for discharging the fluid introduced between the one surface of the housing and the casing through the guide hole to the outside of the housing is formed on the side of the housing located between one surface of the housing and the casing.

As described above, the drain pump according to the present invention is a part of the fluid discharged from the impeller branched to the lower surface side of the housing flows into the space between the casing and the lower surface of the housing, and then discharged to the outside through the lower surface side side of the housing do. Therefore, since foreign matters are discharged together by the fluid flowing into and discharged from the lower surface side of the housing, no foreign matter remains in the inner space of the lower surface side of the housing. Therefore, the damage of the pump by the foreign matter is relatively reduced, thereby improving the reliability of the product.

Hereinafter, a drain pump according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is an external view of a drain pump according to an embodiment of the present invention, Figure 3 is a perspective view of the main portion of Figure 2 cutaway.

As shown, the housing 110 is provided. The housing 110 has a lower housing 115 which is relatively lower than the upper housing 111 positioned on the upper side and coupled to the upper housing 111.

A plurality of inlet holes 116 are formed along the circumferential direction of the lower side of the lower housing 115, and a discharge pipe 112 is formed on the upper side of the upper housing 111. The fluid introduced into the housing 110 through the inlet hole 116 flows into the discharge pipe 112 along the flow path formed inside the housing 110 and is discharged.

A partition plate 120 for sealingly partitioning the inside of the upper housing 111 and the inside of the lower housing 115 is coupled to an approximately boundary portion of the upper housing 111 and the lower housing 115. That is, the partition plate 120 encloses the inside of the housing 110 of the inlet hole 116 side and the inside of the housing 110 of the discharge tube 112 side.

The casing 130 is coupled to the inside of the lower housing 115 under the partition plate 120.

The upper surface of the casing 130 contacts the partition plate 120, the lower surface of the casing 130 is spaced apart from the lower surface of the lower housing 115, and the outer surface of the casing 130 contacts the inner surface of the lower housing 115. It is formed on the lower surface of the support tube 131 and the support tube 131 has a ring-shaped partition frame 133 for partitioning the inside of the support tube 131 and the lower side of the support tube 131.

The impeller 140 is rotatably installed in the support tube 131, and the fluid introduced into the inlet hole 116 is stored in the space between the partition frame 133 and the lower surface of the lower housing 115. At this time, the inlet hole 116 is formed on the side of the lower housing 115 corresponding to the compartment frame 133, the fluid introduced into the inlet hole 116 in the compartment frame 133 inside the compartment frame 133 Is introduced into the through hole 133a to allow the introduction of the support pipe 131 is formed.

The fluid introduced into the inlet hole 116 flows into the central portion of the impeller 140 and is discharged to the outer circumferential surface side of the impeller 140 by the shape of the impeller 140. A plurality of communication holes 122 are formed at portions of the partition plate 120 corresponding to the outside of the impeller 140 so that the fluid discharged to the outer peripheral surface side of the impeller 140 may be transferred to the discharge pipe 112. Therefore, the fluid introduced into the inlet hole 116 is forcibly transferred to the discharge pipe 112 through the communication hole 122 by the impeller 140.

A motor (not shown) for rotating the impeller 140 is installed inside the upper housing 111 that is above the partition plate 120.

The drain pump is installed and used in water, and fluid is always introduced into the lower housing 115 under the impeller 140. By the way, the portion immediately below the impeller 140 may be cleaned by the vortex generated when the fluid flows into the impeller 140, but between the bottom of the casing 130 and the bottom of the lower housing 115 The site cannot be cleaned. Therefore, foreign matter may remain in a portion between the lower surface of the casing 130 and the lower surface of the lower housing 115.

The drain pump according to the present embodiment is configured to clean the lower surface side of the lower housing 115 so that the drain pump is not damaged by foreign matter remaining on the lower surface side of the lower housing 115.

In detail, the coupling plate 135 is hermetically coupled to the lower surface of the partition frame 133 of the casing 130. The coupling plate 135 encloses a lower surface of the casing 130 and a lower surface of the lower housing 115. Therefore, the fluid introduced into the casing 130 through the inlet hole 116 is not transferred to the lower surface side of the lower housing 115.

In addition, the space between the partition plate 120 and the partition frame 133 and the space between the coupling plate 135 and the lower housing 115 communicate with the portion of the partition frame 133 outside the impeller 140. A guide hole 133b is formed, and a discharge hole 117 is formed at a side surface of the lower housing 115 positioned between the coupling plate 135 and the lower surface of the lower housing 115.

Then, most of the fluid discharged from the impeller 140 is transferred to the discharge pipe 112 side through the communication hole 122, a part is introduced into the lower surface side of the lower housing 115 through the guide hole 133b, discharge hole Discharged to 117. At this time, the fluid flowing into the guide hole 133b forms a vortex by the impeller 140, and thus is discharged while cleaning the space between the coupling plate 135 and the lower surface of the lower housing 115.

In order for the fluid flowing into the lower surface side of the lower housing 115 through the guide hole 133b to further form a vortex, the lower surface of the lower housing 115 is provided with a guide plate 150. At this time, the portion of the guide plate 150 facing the guide hole 133b is formed to be inclined downward from the outside to the inside. Since the fluid forms the vortex faster due to the inclined surface 151 of the guide plate 150, the space between the coupling plate 135 and the lower surface of the lower housing 115 is cleaned more cleanly.

In the above, the present invention has been described in accordance with one embodiment of the present invention, but those skilled in the art to which the present invention pertains have been changed and modified without departing from the spirit of the present invention. Of course.

1A is an external view of a conventional drain pump.

FIG. 1B is a cross-sectional view of main parts of FIG. 1A; FIG.

2 is an external view of a drain pump according to an embodiment of the present invention.

FIG. 3 is a perspective view of the main portion of FIG. 2;

Explanation of symbols on the main parts of the drawings

110 housing 120 partition plate

130 casing 140 impeller

150: information board

Claims (5)

An inlet hole is formed at one side of the side and a discharge tube is formed at the other side thereof; A partition plate coupled to the interior of the housing to seal the compartment and the interior of the housing and the discharge tube side of the housing and communicate with the discharge tube side; A casing that is hermetically coupled between the partition plate and one surface of the housing to accommodate the fluid introduced into the inlet; It is rotatably installed inside the casing and forcibly discharges the fluid in the casing comprises an impeller for conveying to the discharge pipe through the communication hole, The casing is formed with a guide hole for guiding a part of the fluid discharged from the impeller to be discharged to one surface side of the aircraft housing through the casing, A drainage pump is formed on a side surface of the housing located between one surface of the housing and the casing to discharge a fluid introduced between the one surface of the housing and the casing through the guide hole to the outside of the housing. . The method of claim 1, The housing is coupled to the upper housing and the upper housing in which the discharge pipe is formed and has a lower housing in which the inlet hole and the discharge hole are formed. The partition plate is coupled to the boundary portion of the upper housing and the housing, The casing is formed on one surface of the support tube, one end of which is spaced apart from one surface of the lower housing, one surface of the housing, the other surface is in contact with the partition plate, and the outer surface is in contact with the inner surface of the lower housing. It has a partition frame partitioning the inside of the tube and the outside of one surface of the support tube, the guide hole is formed, the coupling plate hermetically coupled to the partition frame, The impeller is installed inside the support tube, The inlet hole is formed in the side portion of the lower housing corresponding to the partition frame, And the discharge hole is formed at a side portion of the lower housing positioned between the coupling plate and the lower surface of the lower housing. The method of claim 2, The partition frame is characterized in that the through-hole communicating with the inlet hole is formed. The method of claim 3, wherein One side of the lower housing is a drain pump, characterized in that the guide plate for forming a vortex in the fluid flowing into the guide hole and discharged to the discharge hole is installed. The method of claim 4, wherein The guide hole is formed in the portion of the partition frame outside the impeller, The portion of the guide plate facing the guide hole is formed inclined downward from the outer side to the inner side.

Images