KR20190066636A - Drain pump - Google Patents

Abstract

A drain pump capable of suppressing the occurrence of a peeling flow in a discharge portion is provided. The drain pump 1 has a housing 10 accommodating a rotary vane 30 which is rotated by a motor 40 to pick up drain water. The housing 10 has a body portion 11 provided with a space for flowing drain water therein and a tubular discharge portion 13 for discharging drain water flowing into the space. The portion before and after the change in the inner surface of the discharge portion 13 is connected to the curved surface S at a position where the diameter of the inner space of the discharge portion 13 changes.

Description

Drain pump

The present invention relates to a drain pump used in, for example, an indoor unit of an air conditioner.

In the indoor unit of the air conditioner, moisture in the air condenses and adheres to the heat exchanger during the cooling operation, and water droplets generated by the attached water drop into the drain pan provided at the lower part of the heat exchanger, do. Then, the drain water collected in the drain pan is discharged to the outside of the indoor unit by the drain pump. For example, Patent Document 1 discloses an example of a drainage pump.

The construction of such a drain pump is shown in Fig. The drain pump 101 shown in Fig. 5 (a) has a housing 110 in which a main body 111, a tubular suction part 112 and a tubular discharge part 113 are installed, and the housing 110 The rotary vane 130 is rotatably provided in the rotary shaft. The rotary vane 130 is rotated by the motor 140 in the cover 120 mounted on the upper portion of the housing 110. The drainage collected in the drain pan is sucked from the front end of the suction unit 112 and flows into the pump chamber K in the housing 110 by the rotation of the rotary vane 130, And is discharged to the outside.

Japanese Patent Application Laid-Open No. 2016-27249

However, as shown in Fig. 5 (b), the corner portion 113a is formed in the discharging portion 113 due to the existence of the portion having different inner diameters or the portion having the different extending direction, There is a possibility that noise may be generated due to the separation flow R generated in each corner portion 113a.

It is therefore an object of the present invention to provide a drain pump capable of suppressing the occurrence of a peeling flow in the discharge portion.

In order to achieve the above object, a drain pump according to an aspect of the present invention is a drain pump having a housing in which a rotary vane for sucking up water by being rotated by a motor is accommodated, wherein the housing has a space in which the water flows And a tube-like discharge part communicating with the space through an opening provided in the main body part, wherein a portion of the internal space of the discharge part changes in diameter, And a portion corresponding to before and after the change is connected to the curved surface.

In the present invention, the discharge portion has a horizontal pipe extending in the horizontal direction, the inner surface of the horizontal pipe is formed so that the inner space of the horizontal pipe includes the small diameter portion and the large diameter portion, The portion corresponding to the small diameter portion and the portion corresponding to the large diameter portion may be connected to each other by a curved surface. And the entire bottoms of the inner surface of the horizontal tube are arranged at the same height.

In order to achieve the above object, there is provided a drain pump having a housing in which a rotary vane for sucking up water is rotatably driven by a motor, wherein the housing has a body portion in which the space for flowing the water is provided inside, Shaped discharge portion communicating with the space through the opening, the discharge portion has a horizontal pipe extending in the horizontal direction and a joint pipe connected to the front end portion of the horizontal pipe and extending in a direction intersecting with the horizontal pipe And the inner surface of the horizontal tube and the inner surface of the joint pipe are connected to each other by a curved surface or an inclined surface.

According to the present invention, since the portions corresponding to the front and back of the change on the inner surface of the discharge portion are connected to the curved surface at the portion where the diameter of the inner space of the discharge portion changes, Is smoothly continued without causing the corner portion to be formed by the curved surface. The inner surface of the horizontal pipe and the inner surface of the joint pipe are connected to each other by a curved surface or an inclined surface so that the inner surface of the horizontal pipe and the inner surface of the joint pipe are connected to the curved surface or the inclined surface So as not to cause an acute angle portion. Therefore, the peeling flow in the discharge portion can be suppressed.

1 is a view for explaining a configuration of a drain pump according to a first embodiment of the present invention.
2 is a perspective view of a cut model of the housing of the drain pump of FIG.
Fig. 3 is a view for explaining the shape of the internal space of the discharge portion of the housing of the drain pump shown in Fig. 1;
Fig. 4 is a view for explaining a configuration of a modified example of the drain pump shown in Fig. 1;
5 is a view showing a configuration of a conventional drain pump.

Hereinafter, a drain pump according to an embodiment of the present invention will be described with reference to Figs. 1 to 3. Fig. The drain pump of the present embodiment is for discharging drain water collected in a drain pan of an indoor unit of an air conditioner as an example. In addition, the use of this drainage pump is not limited to the discharge of drain water, but can be used for discharging various kinds of liquids and for raising the liquid. In the present invention, including those of the liquid-like, such as "water" means, in addition, dust or the like is mixed into the water or liquid of the drug impurities of water (H ₂ 0) of the original meaning.

1 (a) is a front view including a partial cross-sectional view, and Fig. 1 (b) is an enlarged cross-sectional view of a discharge portion. Fig. 2 is a perspective view of a cut model cut along the central axis of the suction portion and the central axis of the discharge portion, with respect to the housing of the drain pump of Fig. 1; Fig. 3 is a view for explaining the shape of the internal space of the discharge portion of the housing of the drain pump shown in Fig. 1, and is a perspective view seen from another angle.

1, the drain pump 1 according to the present embodiment includes a housing 10, a cover 20, a rotary vane 30, and a motor 40. As shown in Fig.

The housing 10 has a substantially conical main body portion 11, a tubular suction portion 12 extending downward from the front end of the main body portion 11, and a substantially L- And has a tubular discharging portion 13 integrally provided with a projection. The main body part 11 has a space for flowing drain water sucked up from the suction part 12 inside and forms a pump chamber K by surrounding the space with the cover 20. [ The tip end 12a of the suction portion 12 is disposed in a drain pan (not shown), and the drain water collected in the drain pan is sucked up through the suction portion 12. [

The discharging portion 13 includes a horizontal pipe 15 extending in the horizontal direction from the outer peripheral surface of the main body portion 11 and an upper pipe 15 extending upward from the vicinity of the tip 15a of the horizontal pipe 15 And a joint pipe 18 extending in a direction perpendicular to the longitudinal direction of the pipe.

The horizontal tube 15 is provided with a small diameter portion 16 having a small inner diameter near the main body portion 11 and a large diameter portion 17 having a large inner diameter near the tip 15a. The inner space 15k of the horizontal tube 15 is formed by a small diameter portion 16k corresponding to the small diameter portion 16 and a large diameter portion 17k having a larger diameter than the small diameter portion 16k corresponding to the large diameter portion 17 ). That is, the inner surface 16s and the inner surface 17s of the horizontal pipe 15 correspond to portions before and after the change in the diameter (i.e., inner diameter) of the inner space on the inner surface of the discharge portion 13, respectively The portion corresponding to the small diameter portion 16k and the large diameter portion 17k on the inner surface 15s of the horizontal tube 15. [

The small diameter portion 16k and the large diameter portion 17k of the inner space 15k all have the central axis in the horizontal direction and the central axis is defined by the bottom of the inner surface 16s of the small diameter portion 16 and the large diameter portion 17 The inner surface 16s and the inner surface 17s are arranged in such a manner as to be inscribed in the respective bottom portions so as to be shifted in the vertical direction.

The joint pipe 18 is connected to the outer circumferential surface of the distal end of the horizontal pipe 15 and has an inner surface 18s so that the inner diameter is substantially equal to the inner diameter of the large diameter portion 17 of the horizontal pipe 15. The joint pipe 18 has a central axis of its internal space 18k in the vertical direction (upward).

The small diameter portion 16k of the inner space 15k of the horizontal tube 15 communicates with the opening 11a formed in the main body portion 11 and the large diameter portion 17k is communicated with the inner space 18k As shown in Fig. The inner space 12k of the suction unit 12, the pump chamber K, the inner space 15k of the horizontal pipe 15 and the inner space 18k of the coupling pipe 18 are connected in this order, The drain water sucked from the leading end 12a of the connecting pipe 18 flows through each space toward the upper end 18a of the connecting pipe 18. [

The tip end 15a of the horizontal tube 15 is provided with a die hole 15b for drawing a mold used for molding. Shaped hole 15b is disposed so as to face the opening 11a of the main body portion 11 through the inner space 15k of the horizontal tube 15. [ Shaped hollow 15b is formed such that its inner diameter R2 is equal to the inner diameter of the large diameter portion 17 and is larger than the inner diameter R1 of the small diameter portion 16. [

The discharge portion 13 is located between the inner surface 16s of the small diameter portion 16 of the horizontal tube 15 and the inner surface 17s of the large diameter portion 17 (that is, the diameter of the inner space of the discharge portion 13 is And the inner surface 16s and the inner surface 17s are smoothly connected by the curved surface S. In this case, Alternatively, when the viewpoint is changed, the curved surface S is provided at a position where the inner surface 15s of the horizontal pipe 15 and the inner surface 18s of the joint pipe 18 are connected to each other. That is, the inner surface 15s of the horizontal pipe 15 and the inner surface 18s of the joint pipe 18 are connected to the curved surface S.

The discharge portion 13 is formed on the inner surface 15s of the horizontal pipe 15 (the inner surface 16s of the small-diameter portion 16 and the large-diameter portion 17) at the lower end of the opening 11a of the main body 11, (The inner surface 17s of the base portion 17a) is connected in a straight line in the horizontal direction. In other words, the entire bottom surface of the inner surface 15s of the horizontal tube 15 is arranged at the same height. The difference between the height of the ceiling portion of the inner surface 16s of the small diameter portion 16 and the height of the ceiling portion of the inner surface 17s of the large diameter portion 17 is smaller than the small diameter portion 16k and the large diameter portion 17k of the inner space 15k, Is greater than the height difference in the configuration in which the central axes of the coaxial cables are arranged coaxially. For this reason, the radius of curvature of the curved surface S can be made larger than that of the curved surface S due to the mold drawing. By increasing the radius of curvature of the curved surface S, the drain water flows more smoothly. Here, the bottom refers to the portion at the lowest position in the section cut in the direction orthogonal to the central axis of the inner surface 15s, and the ceiling portion refers to the portion at the highest position.

The housing 10 further includes a cap member 19 for blocking the hollow 15b. The cap member 19 has a circular portion 19a having the same diameter as the circular hole 15b and a circular plate portion 19b having a larger diameter than the circular portion 19a disposed coaxially with the circular portion 19a, . The circumferential edge of the disc portion 19b is fixed to the tip end 15a of the horizontal tube 15 by adhesion or welding or the like so that the circumferential edge of the disc portion 19b is fixed to the tip end 15a of the horizontal tube 15 Respectively.

The cover 20 is formed into a substantially cylindrical shape and its lower end portion is fitted into the upper opening of the main body portion 11 of the housing 10 and secured to the housing 10 by a snap fit mechanism Respectively. At the upper end of the cover 20, there is provided a bracket 22 which is fixedly attached via an engagement portion 21. The bracket 22 is provided with an attachment portion 23 for installing the drain pump 1 to another device.

The rotary vane 30 is rotatably housed in the pump chamber K and has a plurality of flat-plate large vanes (not shown) extending in the radial direction from the outer peripheral portion of the vane shaft portion 31, Diameter wing portion 32 and a small diameter wing portion 33 which is connected to the lower end of the large diameter wing portion 32 and is provided with four flat-blade small-diameter wings inserted into the suction portion 12. [ The blade shaft portion 31 is inserted into a through hole 20a formed at the center of the cover 20 and protrudes upward.

The motor 40 is accommodated in the cover 20 and the drive shaft of the motor 40 is inserted into the insertion hole of the blade shaft portion 31 of the rotary blade 30 disposed in the pump chamber K to rotate the rotary blade 30 .

Next, the operation (action) of the drain pump 1 of the present embodiment will be described.

When the rotary vane 30 is rotated by the motor 40, drain water is sucked from the tip end 12a of the suction portion 12 into the pump chamber K and is discharged through the discharge portion 13. At this time, the inner surface 16s of the small diameter portion 16 of the horizontal tube 15 and the inner surface 17s of the large diameter portion 17 of the discharge portion 13 are smoothly connected by the curved surface S, The bottom portion of the inner surface 17s of the horizontal pipe 15 (the small-diameter portion 16 and the large-diameter portion 17) is linearly connected in the horizontal direction at the lower end of the opening 11a of the discharge port 11, Flows along the smooth surface without passing through the square or acute angles when flowing through the through-hole 13, thereby suppressing the generation of the peeling flow. In Fig. 1 (b), the arrows schematically show the flow of the drain water.

As described above, according to the drain pump 1 of the present embodiment, a portion where the diameter of the internal space 15k of the horizontal pipe 15 of the discharge portion 13 is changed, that is, Since the inner surface 16s of the small diameter portion 16 and the inner surface 17s of the large diameter portion 17 are connected to the curved surface S at the portion between the inner surface 16s and the large diameter portion 17, The inner surface 17s smoothly extends without causing the corner by the curved surface S. Therefore, the drain water smoothly flows and the peeling flow in the discharge portion 13 can be suppressed.

The discharge portion 13 has a horizontal pipe 15 and a joint pipe 18 connected to the end portion thereof so that the inner surface 15s of the horizontal pipe 15 and the inner surface 18s of the joint pipe 18 And the inner surface 15s of the horizontal tube 15 and the inner surface 18s of the coupling tube 18 smoothly extend without causing acute angle portion by the curved surface S. [ Therefore, the drain water flows more smoothly and the peeling flow in the discharge portion 13 can be suppressed.

The small diameter portion 16k and the large diameter portion 17k in the internal space 15k of the horizontal tube 15 of the discharge portion 13 all have the central axis in the horizontal direction, The inner surface 16s and the inner surface 17s of the inner surface 16s of the small diameter portion 16 and the bottom surface of the inner surface 17s of the large diameter portion 17 extend in a straight line, But the present invention is not limited to this configuration. 4, the small diameter portion 16k and the large diameter portion 16k in the inner space 15k of the horizontal pipe 15 are formed in the above-described drain pump 1 instead of the discharge portion 13. [ The drain pump 1A may be a structure in which the discharge portion 13A having the structure in which the portion 17k is arranged coaxially with the central axis in the horizontal direction is adopted. In the drain pump (1A), the small diameter portion (16) and the large diameter portion (17) of the horizontal pipe (15) are connected to the curved surface (S) This drain pump 1A also exhibits an operational effect similar to that of the drain pump 1 described above.

In the embodiment described above, the discharge section 13 has the curved surface S formed at the connection point between the inner surface 15s of the horizontal tube 15 and the inner surface 18s of the joint pipe 18, 15s and the inner surface 18s are smoothly connected by the curved surface S. However, the present invention is not limited thereto. For example, instead of the curved surface S, an inclined surface may be formed between the inner surface 15s of the horizontal tube 15 and the inner surface 18s of the joint pipe 18. [ This inclined surface is a surface similar to the C surface formed by so-called chamfering and is formed at an angle of 30 to 60 degrees with respect to both the inner surface 15s of the horizontal tube 15 and the inner surface 18s of the joint tube 18. [ In the range of angles. This configuration also exhibits the same operational effects as those of the drain pump 1 described above.

In the above-described embodiment, the joint pipe 18 extends in the vertical direction. However, the present invention is not limited to this. In a direction intersecting with the horizontal pipe 15, the extending direction of the joint pipe 18 is arbitrary .

Although the embodiments of the present invention have been described above, the present invention is not limited to these examples. It is to be understood that included in the scope of the present invention is the scope of the present invention as long as a person skilled in the art appropriately combines the features of the embodiment with the addition, do.

1, 1A ... Drain pump 10 ... housing
11 ... The main body portion 11a ... Opening
12 ... Suction part 12a ... point
12k ... The internal spaces 13, 13A ... The discharge portion
15 ... Horizontal tube 15a ... point
15b ... The shape of the hole 15k ... Inner space
16k ... Small parts 16s ... Inside
17 ... Large neck part 17k ... Large diameter portion
17k ... Large diameter part 17s ... Inside
18 ... The joint tube 18a ... Top
18k ... Interior space 18s ... Inside
19 ... The cap member 19a ... Circumflex
19b ... Disc portion 20 ... cover
20a ... Through ball 21 ... Closure part
22 ... Bracket 23 ... Attachment
30 ... Rotating wing 31 ... Wing shaft
32 ... Large diameter wing portion 33 ... Small-diameter wing portion
40 ... Motor K ... Pump room
R ... The exfoliation type R1 ... The inner diameter of the small diameter part of the horizontal tube
R2 ... The inner diameter of the large diameter part of the horizontal tube S ... Curved surface

Claims (4)

1. A drain pump having a housing in which a rotary vane for sucking up water by being rotated by a motor is accommodated,
Wherein the housing has a body portion in which the space for the water flows inside and a tubular discharge portion communicating with the space through an opening provided in the body portion,
Wherein a portion of the inner surface of the discharge portion corresponding to the change before and after the change is curved at a position where the diameter of the inner space of the discharge portion changes. The method according to claim 1,
Wherein the discharge portion has a horizontal tube extending in the horizontal direction,
The inner surface of the horizontal tube is formed so that the inner space of the horizontal tube includes a small diameter portion and a large diameter portion,
Wherein a portion corresponding to the small diameter portion on the inner surface of the horizontal pipe and a portion corresponding to the large diameter portion are connected to each other by a curved surface. 3. The method of claim 2,
And the bottoms of the inner surface of the horizontal pipe are arranged at the same height. 1. A drain pump having a housing in which a rotary vane for sucking up water by being rotated by a motor is accommodated,
Wherein the housing has a body portion in which the space for the water flows inside and a tubular discharge portion communicating with the space through an opening provided in the body portion,
Wherein the discharge portion has a horizontal tube extending in a horizontal direction and a joint tube connected to a distal end of the horizontal tube and extending in a direction crossing the horizontal tube,
Wherein an inner surface of the horizontal pipe and an inner surface of the joint pipe are connected to each other by a curved surface or an inclined surface.

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