KR101840493B1 - Drain pump - Google Patents

Abstract

The present invention provides a motor for a drain pump excellent in assembling property and high in coaxiality.
A lower cover (40) having a lid (46) is attached to the upper portion of the housing (10) of the drain pump. A stator assembly 120 and a rotor assembly 140 constituting a motor are assembled to the upper portion of the lower cover. In this drain pump, the outer peripheral portion of the stator core member 126 of the stator unit and the inner diameter portion 45 of the lower cover 40 are set as reference positions for assembly, thereby ensuring the assembly accuracy.

Description

Drain pump {DRAIN PUMP}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a drain pump for draining water drained on a drain plate of an air conditioner.

The following Patent Document shows a basic configuration of a drain pump of this kind.

The drain pump accommodates a resin rotary vane in a resin pump body. A resin-made cover having a lid member on the upper surface of the pump body is attached to an upper portion of the pump body, and the motor is supported on the upper portion of the cover. Then, the rotary blades are driven by the output shaft of the motor.

Patent Document 1: JP-A-2009-264315 Patent Document 2: JP-A-9-053591

BACKGROUND ART [0002] In recent years, a drain pump employs a structure in which a stator has a resin mold structure as a motor for driving and a structure for improving the insulation property is employed. A synthetic resin cover for supporting the resin mold motor, And the pump body is assembled.

In general, the dimensional accuracy of a resin product is often inferior to the dimensional accuracy of a metal product.

When a resin product having a large dimensional tolerance is assembled, a dimensional error is accumulated, and the coaxiality between the axis of the rotary vane and the axial line of the pump main body is deteriorated, which causes the incidence of vibration.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a drain pump which is easy to improve the coaxiality of a rotary vane.

In order to achieve the above object, a drain pump according to the present invention comprises a pump housing having a rotary vane, a pump chamber accommodating the rotary vane, and a pump housing disposed on the upper surface of the pump housing to cover the upper open portion of the pump chamber. A motor cover mounted on an upper portion of the housing cover; and a motor cover covering the motor. The motor includes a resin-molded stator assembly, and a stator assembly The stator assembly includes a stator core member laminated on the stator core member, a resin mold body formed by resin-molding the stator core member, and a center shaft fixedly disposed on the resin mold body .

The outer circumferential surface of the stator core member of the stator assembly is mounted on the inner circumferential wall of the upper portion of the housing cover.

The rotor assembly includes a cylindrical magnet rotor and a rotor center body for supporting the rotor. The rotor center body is provided with a central shaft hole having a bottom, and the center shaft hole is rotatably And the rotor core body is provided with a mounting portion for connecting the rotary blades to a lower end portion thereof.

The drain pump according to the present invention has the above-described structure, and is excellent in assembling property and high in coaxiality, so that the performance of the drain pump can be improved.

1 is a side view of a drain pump.
2 is a top view of the drain pump.
3 is a cross-sectional view taken along line AA of Fig.
4 is a cross-sectional view of the motor;
5 is a sectional view of the stator unit;
6 is a sectional view of the rotor unit;
7 is a view showing a constitution and an assembling process of a drain pump part.
8 is a side view of the lower cover.
9 is a top view of the lower cover.
10 is a sectional view of the lower cover;
11 is a side view of the stator unit.
12 is a bottom view of the stator unit.

Fig. 1 is a side view of the drain pump of the present invention, Fig. 2 is a top view, and Fig. 3 is a cross-sectional view taken along line A-A of Fig.

The drain pump has a resin pump housing 10 and is equipped with a rotary vane 200 in the pump chamber 12 of the pump housing 10. A resin housing and a cover (hereinafter referred to as a lower cover) 40 are attached to the upper portion of the pump housing 10 through an O-ring 30. The lower cover 40 is detachably attached to the pump housing 10 by a snap fit function using the snap fit arm 14 provided in the pump housing 10. [

The lower cover 40 has a lid 46 covering the opening of the upper surface of the pump housing 10. An opening 48 through which the shaft 210 of the rotary vane 200 passes is formed at the center of the lid 46. [ .

The mounting portion 144 of the rotor assembly 140, which will be described later, is press-fitted into the shaft portion 210 of the rotary vane 200. A motor 100 is mounted on the upper portion of the lower cover 40 and covered with a motor cover (hereinafter referred to as an upper cover) 50 made of a synthetic resin. An upper portion of the upper cover 50 is provided with an attachment portion 52 to a mating member (not shown).

The upper cover 50 has a snap fit arm 54 and is attached by a snap fit function using the elasticity of the resin to the lower cover 40. [

The motor 100 is constituted by a rotor assembly 140 and a stator assembly 120, which are separately manufactured, as shown in FIG.

The stator assembly 120 has a bobbin 122 integrally attached to the molded resin body 121 as shown in Fig. A coil 124 is wound around the bobbin 122, and electricity is supplied from the wiring 125. The coil 124 excites the stator core member 126 in which the metal plate is stacked. A columnar shaft 130 is attached to the center of the resin mold body 121.

As shown in Fig. 6, the rotor assembly 140 includes a rotor core body 141 made of resin. The rotor center body 141 has a hollow cylindrical shape and has a mounting portion 144 which is press-fitted into the shaft portion 210 of the rotary vane 200 at a lower end portion thereof. A rotor portion 146 is secured to an outer upper portion of the rotor center body 141. A flange portion 142 for preventing water from entering the rotor portion 146 is provided below the rotor portion 146. Bearings 150 and 152 for the shaft 130 are attached to the inner diameter portion of the rotor center body 141. At the bottom of the lower bearing 152, the thrust receiving plate 160 is inserted.

The process of assembling the rotor assembly 140 to the stator assembly 120 will be described with reference to FIG.

The shaft 130 of the stator assembly 120 is first inserted into the bearing 150 and the bearing 152 that are disposed on the rotor center body 141 of the rotor assembly 140. The stator core member 126 and the rotor portion 146 are attracted by the magnetic force of each other so that the rotor assembly 140 is supported by the shaft 130 ).

A gap G ₁ is formed between the bottom portion 121a of the resin mold 121 and the flange portion 142 in this state. This gap G ₁ is set so as not to interfere with the resin mold 121 when the rotor assembly 140 rotates. Also, the presence of the flange portion 142 prevents intrusion of water into the inside.

The motor 100 adopts a structure in which the shaft 130 on the side of the stator assembly 120 is received in the rotor core body 141 and surrounded by the rotor assembly 140 made of resin. With this structure, water splashing from the pump housing 10 side is prevented from intruding into the motor 100, and the function of the drain pump can be improved.

Next, details of the assembly of the drain pump will be described with reference to Figs. 7 to 12. Fig. Fig. 8 is a side view of the lower cover 40, Fig. 9 is a top view of the lower cover 40, Fig. 10 is a sectional view of the lower cover 40, Fig. 11 is a side view of the stator assembly 120, FIG.

10, a stator unit receiving portion 45 having a thinner cover wall thickness for engaging the stator assembly 120 is formed at the uppermost inner diameter portion of the lower cover 40, The stator unit support portion 43 is provided. The stator unit receiving portion 45 to which the stator assembly 120 is fitted is a reference position for assembling the drain pump. This reference position is referred to as a _third reference position (K ₃ ).

As shown in Figs. 11 and 12, the stator core member 126 of the stator assembly 120 is manufactured by punching a magnetic metal plate, and its outer peripheral surface (outer diameter portion) has high dimensional accuracy. Thus, when the outer peripheral surface (outer diameter) of the stator core member 126 at a first reference position (K ₁₎ of the dimensional accuracy of the reference position of the first (K ₁₎ has, compared to the dimensional accuracy of the resin product high . And, inserted in the central position of the stator assembly 120, when the external diameter position of the metal shaft 130 that secure to the reference position (K ₂₎ of the second, the second reference position (K ₂₎ the accuracy is also high in the .

The drain pump is assembled with reference to the _first reference position K ₁ , the second reference position K ₂ , and the third reference position K ₃ in the assembly process shown in Fig.

A rotary vane (200) is disposed in the pump chamber (12) of the pump housing (10). The lower cover 40 is attached to the pump housing 10 via the O-ring 30 by a snap fit function.

The shaft 130 is fixed to the center position of the stator assembly 120 to define a second reference position K ₂ (center position). The shaft 130 is inserted into the bearings 150 and 152 of the rotor assembly 140 to assemble the motor. The first reference position K ₁ of the outer circumferential surface (outer diameter portion) of the stator core member 126 of the stator assembly 120 is set at the third reference position K (FIG. 4) of the stator unit receiving portion 45 of the lower cover 40 ₃ ). The shaft portion 210 of the rotary vane 200 is inserted and connected to the attachment portion 144 of the rotor center body 141 of the rotor assembly 140.

The upper cover 50 is attached to the upper portion of the lower cover 40 by a snap fit function to complete the drain pump.

In the drain pump of the present invention, the outer diameter portion of the metallic stator core member 126 molded in the stator assembly 120 is set at the first reference position K ₁ , It is coupled to the fitting 45 to the third reference position (K ₃₎ of the. The rotor assembly 140 is integrated with the outer diameter portion of the shaft 130 inserted into the center portion of the stator assembly 120 at a second reference position K ₂ , As shown in Fig.

This configuration improves the coaxial accuracy of the axis of the pump housing 10 and the axis of the rotary vane 200 to prevent the occurrence of vibration or the like during rotation of the rotary vane 200. [

10: pump housing 12: pump chamber
30: O-ring 40: Housing cover (lower cover)
42: snap foot holder 43: stator unit support
44: snap foot support 45: stator unit support part
46: lid part 48: opening
50: motor cover (upper cover) 54: snap foot arm
100: motor 120: stator assembly
121: resin mold 122: bobbin
124: coil 125: wiring
126: stator core member 130: shaft
140: rotor assembly 141: rotor core
142: flange portion 144:
146: rotor part 150, 152: bearing
160: Thrust plate 200: Rotating blade
210: shaft portion G ₁ : clearance
K ₁ : first reference position K ₂ : second reference position
K ₃ : Third reference position

Claims (2)

A housing cover which functions as a cover for covering the opening of the upper surface of the pump housing to cover the upper opening of the pump chamber; And a motor cover covering the motor,
The motor includes a resin-molded stator assembly and a rotor assembly that is electromagnetically rotationally driven by the stator assembly,
The stator assembly includes a stator core member having a laminate formed thereon, a resin mold body formed by resin-molding the stator core member, and a center shaft fixedly disposed on the resin mold body,
The outer circumferential surface of the stator core member of the stator assembly is mounted on the inner circumferential wall of the upper portion of the housing cover,
The rotor assembly comprises a cylindrical magnet rotor and a rotor core supporting the rotor,
Wherein the rotor has a center shaft hole having a bottom, the center shaft hole is rotatably supported by the center shaft,
Wherein the rotor core body is provided at its lower end with an attachment portion for connecting a rotary blade. delete

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