JP2007113500A - Drain pump - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce noise of a drain pump installed in an air conditioning device. <P>SOLUTION: This drain pump includes a motor 10, a rotary blade 100 connected to an output shaft of the motor, and a pump housing 50 storing the rotary blade. The rotary blade 100 includes large diameter blades 120, small diameter blades 140, a ring member 150 connecting an outer circumference part of the large diameter blades, and a hollow disk member 160 connected to a lower end part of the ring member. The lower end surface of the small diameter blades 140 is arranged at a position drawn back inward of the pump housing from an end surface of a suction port 60 by a dimension H1. Also, projected area of the small diameter blades is set to 60% - 70% of the inner diameter area of the suction port, and noise is reduced by restricting suction quantity. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a drainage pump, and more particularly to a drainage pump equipped in 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 drops into a drain pan provided below the heat exchanger. A drainage pump is used to drain the drain water accumulated in the drain pan. In this drainage pump, a suction port is formed in the lower part, an upper part is opened, and a blade is rotatably provided in a housing which is a pump body provided with a discharge port on a side, and the blade is disposed on an upper part of the opening of the housing. It is rotated by a motor fixed through a cover. The drive shaft of the motor is rotatably connected to the shaft portion of the blade through a through hole formed in the cover, and when the blade is rotated by driving the motor, the drain water stored in the drain pan is sucked. The air is sucked in from the lower end of the blade of the mouth, pumped up along the inner surface of the housing by centrifugal force, and discharged from the discharge port of the casing to the outside.
This type of drainage pump is disclosed in, for example, Patent Document 1 and Patent Document 2 according to the present applicant.
Japanese Patent Laid-open No. 2000-213770 JP 2004-138075 A

As a result of various experiments, the inventors of the present application have confirmed that the shape of the blade of the suction port is related to the generation of noise.
The present invention provides a drainage pump that reduces operating noise based on experimental results.

The drainage pump of the present invention has, as basic means, a motor, a rotary blade connected to the output shaft of the motor, and a pump housing that accommodates the rotary blade. The pump housing is inserted with a small-diameter blade of the rotary blade. The rotary vane includes a shaft portion connected to the output shaft of the motor, a plate-shaped large-diameter blade extending radially from the shaft portion, and a large diameter. A small-diameter blade connected to the blade through a connecting portion, a ring member connecting the outer periphery of the large-diameter blade, and a hollow disk member connected to the lower end of the ring member. And a plurality of blade portions projecting radially from the shaft portion, and a bottom portion of the blade portion orthogonal to the axis of the shaft portion, and the blade portion and the bottom portion are connected by a chamfer or an arcuate portion, and a small diameter blade The shape of has a shape that suppresses the amount of suction
The bottom of the small-diameter blade is set inside the pump housing by a predetermined dimension with respect to the end surface of the suction port of the housing, and the projected area of the small-diameter blade is 60% to 70% with respect to the inner surface area of the suction port. The range is set.

  By providing the above-described configuration, the present invention can suppress the suction amount and reduce noise.

FIG. 1 is an explanatory diagram of a drainage pump to which the present invention is applied.
The drainage pump generally indicated by reference numeral 1 has an electric motor 10, and the electric motor 10 is supplied with power via a lead wire 11. The electric motor 10 is attached to a support column 20 erected on a lid member 30 attached to an upper portion of a pump housing 50 (pump main body).

The pump housing 50 is made of plastic and has a pump chamber 52 formed therein. The pump housing 50 is integrally formed with a suction port 60 and a discharge port 70 that communicate with the pump chamber 52.
The rotary vane 100 is disposed in the pump chamber 52, and the opening of the pump chamber 52 is covered with the lid member 30. A seal member 40 is inserted between the pump housing 50 and the lid member 30, and leakage of drain water from the pump chamber is prevented.

  The rotary blade 100 has a shaft portion 110, and the output shaft 12 of the electric motor 10 is inserted into the hole of the shaft portion 110. The plate-shaped large-diameter blade 120 extending in the radial direction from the shaft portion 110 is connected to a cylindrical ring member 150 on the outer peripheral side.

The lower edge of the large diameter blade 120 is connected to the disk member 160. An opening 170 is provided on the center side of the disk member 160, and drain water from the suction port is sent to the large-diameter blade 120 side through the small-diameter blade 140 and the connecting portion 130.
In the drainage pump 1 of the present invention, the angle alpha ₁ relative to the horizontal plane of the bottom surface 54 of the pump housing 50 is set to approximately 15 degrees.
The angle beta ₁ with respect to the horizontal plane of the disc member 160 of the rotary vane 100 is set to approximately 15 degrees.

FIG. 2 shows the detailed shape of the small-diameter blade 140.
The small-diameter blade 140 has a columnar shaft portion 141, four plate-shaped blade portions 142 projecting radially from the shaft portion 141, and a blade portion bottom 144 orthogonal to the axis of the shaft portion. The blade 142 and the bottom 144 are connected by a chamfer 143. A height dimension H ₁ is set between the end face 61 of the suction port 60 and the bottom part 144 of the small-diameter blade 140.
Drainage pump of the present invention, the suction amount is suppressed by the presence of the dimension H ₁ provided between the shape and the inlet of the small-diameter blade, generation of noise can be prevented.

(A), (b), and (c) of FIG. 3 show various modifications of the small-diameter blade.
A small-diameter blade 140a shown in FIG. 3A has a cylindrical shaft portion 141a and has four plate-shaped blade portions 142a protruding in the radial direction. And the blade | wing part 142a and the bottom part 144a are connected by the chamfering part 143a.
In the small-diameter blade 140a, the bottom portion 145a of the shaft portion 141a is set at a position higher than the bottom portion 144a of the blade portion 142a.
The height dimension H ₁ between the bottom 144a and the suction port of the blade portion 142a is provided is similar to the previous embodiment.
Generation of noise is prevented by the shape of the presence and diameter blade dimensions H ₁ provided between the shape and the inlet of the small-diameter blades.

A small-diameter blade 140b shown in FIG. 3B has a cylindrical shaft portion 141b, and has four plate-shaped blade portions 142b protruding in the radial direction. And the blade | wing part 142b and the bottom part 144b are connected by the chamfering part 143b.
In the small diameter blade 140b, the bottom portion 145b of the shaft portion 141b is set at a position higher than the bottom portion 144b of the blade portion 142b.
The height dimension H ₁ between the bottom 144b and the suction port of the blade portion 142b is provided is similar to the previous embodiment.
Dimensions provided between the shape and the suction port of the small-diameter vane generation of noise is prevented by the shape of the presence and diameter blade of H _1.

A small-diameter blade 140c shown in FIG. 3C has a cylindrical shaft portion 141c, and has four plate-shaped blade portions 142c protruding in the radial direction. And the blade | wing part 142c and the bottom part 144c are connected by the chamfering part 143c.
In the small-diameter blade 140c, the bottom portion 145c of the shaft portion 141c is set at a position higher than the bottom portion 144c of the blade portion 142c.
The height dimension H ₁ between the bottom 144c and the inlet of the blade portion 142c is provided is similar to the previous embodiment.
Dimensions provided between the shape and the suction port of the small-diameter vane generation of noise is prevented by the shape of the presence and diameter blade of H _1.

4 and 5 are explanatory diagrams showing the relationship between the projected area of the small-diameter blade of the present invention and the area of the inner diameter of the suction port.
FIG. 4 is a bottom view of the suction port 60 into which the small-diameter blade 140a shown in FIG.
The area of the inner diameter of the suction port 60 and _{S 1,} the projected area of the small-diameter vane 140a is taken as _{S 2, S 2} is set to 60% to 70% of _{S 1.}
By adopting this area ratio, the amount of suction by the small-diameter blades is suppressed, and noise can be reduced.
FIG. 5 is a bottom view of the suction port 60 into which the small-diameter blade 140b shown in FIG. 3B is inserted.
The area of the inner diameter of the suction port 60 and _{S 1,} the projected area of the small-diameter vane 140b is taken as _{S 2, S 2} is set to 60% to 70% of _{S 1.}
By adopting this area ratio, the amount of suction by the small-diameter blades is suppressed, and noise can be reduced.

Incidentally, in the embodiment described above, alpha _1, an example has been described of the drainage pump set the beta ₁ to about 15 degrees, the angle alpha _1, beta _1, for example for well drainage pumps approximately 5 degrees Can be implemented.
The angle alpha _1, beta ₁ can be applied to different drainage pump achieve the same noise reduction effect.

Explanatory drawing of the drainage pump of this invention. Explanatory drawing which shows the detailed shape of a small diameter blade | wing. Explanatory drawing which shows the various modifications of a small diameter blade | wing. Explanatory drawing which shows the relationship between the area of a small diameter blade | wing and a suction inlet. Explanatory drawing which shows the relationship between the area of a small diameter blade | wing and a suction inlet.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Drain pump 10 Electric motor 50 Pump housing 100 Rotary blade 120 Large diameter blade 140 Small diameter blade 150 Ring member 160 Disk member

Claims (3)

A motor, a rotary blade connected to the output shaft of the motor, and a pump housing that houses the rotary blade, the pump housing being provided at a suction port into which a small-diameter blade of the rotary blade is inserted and at a side portion of the pump chamber A drainage pump having a discharge port,
The rotary blade includes a shaft portion connected to the output shaft of the motor, a plate-shaped large-diameter blade extending radially from the shaft portion, a small-diameter blade connected to the large-diameter blade via the connection portion, and a large-diameter blade A ring member for connecting the outer periphery of the ring member, and a hollow disk member connected to the lower end of the ring member,
The small-diameter blade has a columnar shaft portion, a plurality of blade portions projecting radially from the shaft portion, and a bottom portion of the blade portion orthogonal to the axis of the shaft portion, and the space between the blade portion and the bottom portion is chamfered or arcuate. The drainage pump is connected at the section, and the shape of the small-diameter blade has a shape that suppresses the suction amount.   The drainage pump according to claim 1, wherein the bottom portion of the small-diameter blade is set inside the pump housing by a predetermined dimension with respect to the end face of the suction port of the housing. The drainage pump according to claim 1, wherein the projected area of the small-diameter blade is set in a range of 60% to 70% with respect to the inner diameter area of the suction port.

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