KR101850624B1 - Aspirator - Google Patents

Abstract

The present invention relates to an aspirator. More specifically, the present invention relates to the aspirator, which can generate a large amount of bubbles even in a small size, and can have noise attenuating effect almost close to noiseless. The present invention can easily adjust discharge position of the bubbles, can effectively reduce the noise using high water tightness. Moreover, the present invention can be minimized, and can maximize bubble generating efficiency.

Description

Aspirator {ASPIRATOR}

The present invention relates to an aspirator, and more particularly, to an aspirator having a bubble discharging position that is easily adjusted, a water tightness is high, a noise reduction effect is excellent, a size can be reduced, and bubble generation efficiency is maximized.

Generally, an aspirator is an exhaust device for absorbing air and other gases, and is a kind of pump used for sucking air or liquid from a side tube (side tube).

Such an aspirator does not stop sucking in air, other gas or liquid but discharges it to another position. When it is placed in water, it sucks in air and generates a large amount of air bubbles.

Conventionally known means for generating bubbles are disclosed in many related arts including Patent No. 0890772, Patent Publication No. 1994-0008563, Utility Model Registration No. 1995-0004556, and the like, Therefore, there is a disadvantage that a lot of noise occurs during operation.

Of course, even when the impeller is pumped by rotating the motor using the motor, the noise generated by the motor is very large. That is, in the case of bubble generating means installed in an aquarium or the like, the noise level may be such that the noise level interferes with the water surface .

In addition, the bubble generating means including the conventional aspirator is a rotary pumping structure using a simple pumping structure, such as reciprocating pumping using an electromagnet or an impeller, but there is no means to amplify or reinforce it, , It is necessary to increase the capacity in order to increase the amount of bubbles to be generated. In such a case, the volume of the device is increased to decrease the competitiveness, and at the same time, the noise is proportionally increased, so that the device can be miniaturized, reduced in weight, The need for an aspirator model has been on the rise.

Korean Patent Laid-Open No. 10-2015-0093312 (Aug. 18, 2015) 'Connecting device for shower using oxygen generating aspirator' Korean Patent Publication No. 10-2016-0018556 (Feb. 27, 2016) 'Aspirator that generates a vacuum using a venturi effect' Korean Patent Publication No. 10-2016-0030312 (Apr. 26, 2016) 'Aspirator and ejector system'

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems in the prior art, and it is an object of the present invention to provide a bubble generator which is easy to control the bubble discharge position, has high water tightness, There is a main purpose in providing a speaker.

In order to achieve the above-mentioned object, the present invention provides a washing machine comprising: a lower housing (100) having a water inlet (130) at one side and an upper side; A driving motor 140 installed in the lower housing 100 and having an impeller 142 for sucking water through the water inlet 130 and discharging the water upward; A discharge guide cover 200 which hermetically seals the upper portion of the lower housing 100 and has a water discharge port 210 formed at one side thereof; And an ejection hole 310 communicating with the water outlet 210. The water ejected through the ejection hole 310 is branched into left and right sides of the ejection hole 310, A dispensing and dispensing guide (300) having a dispensing opening (340) for dispensing; A sealing cover 400 having a plurality of air suction holes 410 for sealing the upper portion of the dispensing and dispensing guide 300 and allowing external air to be sucked into the discharge ports 340; And an upper housing (500) having an air vent hole (510) for sealing the upper part of the hermetic cover (400) and introducing air from the outside.

At this time, the driving motor 140 is provided with a filling part 146 filled with an epoxy resin at the rear end thereof to attenuate noise.

In addition, the discharge ports 340 are provided symmetrically on both sides in the width direction of the distribution / discharge guide 300, and are formed in a multi-shape symmetrical in the longitudinal direction so that noise is attenuated by mixing .

The extension pipe 600 is further provided between the discharge guide cover 200 and the dispensing and dispensing guide 300. The lower end of the extension pipe 600 is assembled to the water discharge port 210, And the upper end of the ejection hole 600 is assembled to the ejection hole 310.

In addition, the present invention provides a washing machine comprising: a lower housing (100) having a water inlet (130) formed on one side and an upper side opened; A driving motor 140 installed in the lower housing 100 and having an impeller 142 for sucking water through the water inlet 130 and discharging the water upward; A discharge guide cover 200 which hermetically seals the upper portion of the lower housing 100 and has a water discharge port 210 formed at one side thereof; And a discharge unit 700 installed in the water discharge port 210 of the discharge guide cover 200. The discharge unit 700 includes a cylindrical body 200 assembled to the water discharge port 210 of the discharge guide cover 200, A plurality of fixing pieces 720 extending substantially in the shape of a circle around the upper end of the cylindrical body 710 and a suction pipe 730 fixed to an end of the fixing piece 720; And a discharge inducing member (740) fixed to the fixing piece (720) at an interval from a lower end of the suction pipe (730) and projecting in an inverted conical shape toward the center of the circle of the cylindrical body (710) It also provides a speaker.

According to the present invention, it is possible to easily adjust the bubble discharging position, to have a high water tightness, to excel in noise reduction, to achieve miniaturization, and to maximize bubble generation efficiency.

1 is an exemplary partial exploded view of an aspirator according to a first embodiment of the present invention.
Figs. 2 to 5 are illustrations showing a part of the structure of the aspirator according to the first embodiment of the present invention.
6 is an exemplary partial exploded view of an aspirator according to a second embodiment of the present invention.
7 is an exemplary perspective view of an expansion and contraction tube constituting the aspirator according to the second embodiment of the present invention.
8 is a partially assembled state of the aspirator according to the second embodiment of the present invention.
9 is an illustration of an aspirator according to a third embodiment of the present invention.
FIG. 10 is an exemplary view showing an operation example of FIG. 9. FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Before describing the present invention, the following specific structural or functional descriptions are merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms, And should not be construed as limited to the embodiments described herein.

In addition, since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

The aspirator according to the first embodiment of the present invention includes the lower housing 100 as shown in Figs. 1 to 5.

The shape of the lower housing 100 is not particularly limited as long as it is a housing having a space therein.

A plurality of water inlets 130 are formed in a slit shape on one side of the longitudinal direction of the lower housing 100, and an inner space is defined by the first and second partition walls 110 and 120 in the lower housing 100. do.

The first and second barrier ribs 110 and 120 are rounded in a groove shape in accordance with the curvature of the driving motor 140 so that the driving motor 140 can be seated. Particularly, (112) is recessed.

The impeller 142 is fixed to the motor shaft of the driving motor 140 and a fixing member 144 is integrally formed in a part of the body to be fixed to the fixing slot 112, The filling portion 146 is filled with an epoxy resin.

Therefore, since the water-tightness of the drive motor 140 according to the present invention is increased by the epoxy resin, the drive motor 140 can sufficiently perform its function as an underwater pump for a long time in water, And the driving noise is absorbed by the epoxy resin, so that the noise generation is remarkably reduced.

In other words, by molding the drive motor 140 with an epoxy resin, noise generation can be greatly reduced to 1/2 or more of the noise of the conventional general aspirator.

In addition, when the driving motor 140 is installed in the lower housing 100, the impeller 142 is disposed between the first partition 110 and the water inlet 130 and rotates to rotate the lower housing 100 ) It is configured to be able to pump external water.

The open upper end of the lower housing 100 is sealed by the discharge guide cover 200 in a state where the drive motor 140 is installed.

At this time, a cylindrical water discharging part 210 is protruded by a predetermined length at one side of the discharge guide cover 200 to form a tube shape.

The separation wall 220 may protrude from the water discharge unit 210 at a predetermined interval. The separation wall 220 may have a lower height than the water discharge unit 210.

Accordingly, when the driving motor 140 is driven to rotate the impeller 142, the water is sucked through the water intake port 130 and then circulated along the rotation radius of the impeller 142, It will rise.

On the other hand, the dispensing / ejecting guide 300 is seated on the open top of the discharge guide cover 200 to seal the discharge guide 300.

At this time, the dispensing / discharging guide 300 is formed with a spray hole 310 at its center, and a branching flow path 320 branched into a substantially 'W' shape on both sides with the spray hole 310 interposed therebetween, 330).

In addition, a discharge portion 340 is formed at each end of the branch passage 320. The discharge portion 340 is provided symmetrically on both sides in the width direction of the distribution and discharge guide 300, Shaped discharge structure in which water is discharged through at least four discharge portions 340. The multi-

Therefore, when the water is injected, the mutually destructive interference causes the noise to be remarkably reduced, and the sprayed water is rapidly mixed to generate an enormous number of bubbles. This is an amount of bubbles that can not be obtained by an existing aspirator, and when compared with an existing aspirator visually, it has been confirmed that the amount of bubbles generated by the aspirator according to the present invention is about 3-4 times as much.

Moreover, since the branched wall 330 is round-shaped in a W shape, the discharged water swirls naturally and induces vortexes naturally, and water sprayed in directions opposite to each other is rapidly mixed, On the other hand, the noise is canceled and rapidly attenuated.

In addition, the open top of the dispensing and dispensing guide 300 is sealed by the sealing cover 400.

The sealing cover 400 is a member for guiding air to be sucked in due to the generation of negative pressure due to the water flow when the water is spouted into the discharge portion 340 while the water is rapidly circulated in the distribution and discharge guide 300, (410).

That is, when the water is discharged to the discharge part 340, the air is sucked to generate air bubbles, so that the air-tight cover 400 is provided to supply the air from the outside, and the most efficient air supply, more precisely, It is preferable that the position of the air intake hole 410 is limited to a specific position.

The air intake hole 410 should be positioned just above the discharge portion 340, which is a position immediately before the water is circulated and then discharged.

Thus, the water pressure fluctuates due to the flow velocity of the water, and in the process, negative pressure is induced in the sealed inside of the dispensing / discharging guide 300 to suck air through the air suction hole 410. This causes a kind of venturi effect It is easy to understand if it is applied.

In addition, a volume increasing protrusion 420 may be further formed in the sealing cover 400 to increase the air suction pressure by increasing the volume of the closed space of the distribution / dispensing guide 300.

Since the volume increasing protrusion 420 increases the inner space by the protruded portion, it contributes to generating a large pressure difference while keeping a small space inside when the water flows, and through the air suction hole 410 So that air can be sucked smoothly.

The upper portion of the hermetic cover 400 is closed by the upper housing 500 and the upper housing 500 makes a space between the hermetic cover 400 and the upper housing 500 to fill and fill with the outside air. And an air vent hole 510 is formed at one side of the upper housing 500 for this purpose.

In addition, a connection hose (not shown) is inserted into the air vent hole 510 so that the external air can be smoothly supplied even if the aspirator according to the present invention is disposed deeply in the water. That is, by arranging the connecting hose longer than the water, the external air can be arranged to be smoothly supplied to the inner space of the upper housing 500 through the connecting hose.

In the present invention having such a configuration, water is introduced into the lower housing 100 while the impeller 142 is rotated, and then the water is discharged through the water discharge portion 210 of the discharge guide cover 200 and the discharge hole 310 320).

The water jetted out to the branch flow channel 320 then goes out along the branch wall 330 and goes to the discharge portion 340 and discharges the water through the end portion of the discharge portion 340.

In this process, the air inside the upper housing 500 is sucked through the air suction holes 410 formed in the upper portion of the discharge portion 340, and a large amount of air bubbles are generated while being mixed with water, 340).

As described above, according to the present invention, the discharging unit 340 is formed in a multi-type structure and has a structure in which the discharge units 340 are opposed to each other at regular intervals, thereby maximizing the noise reduction effect due to mixing with the water discharge.

Particularly, since the rear end of the drive motor 140 is filled with epoxy resin to enhance the water tightness, noise absorption and vibration damping effect can be obtained while preventing conduction failure, thereby further ensuring a sound attenuation function of a larger width.

6 to 8 show a second embodiment according to the present invention as another embodiment.

6 to 8, the aspirator according to the second embodiment of the present invention further includes an extension pipe 600, which is generally referred to as a bellows, between the discharge guide cover 200 and the dispensing and dispensing guide 300 And the like.

This configuration is advantageous in that it is possible to freely determine the position where the bubbles are discharged through expansion and contraction of the expansion and contraction pipe 600.

That is, in the case of the first embodiment, bubbles are generated around the point where the lower housing 100 is seated. However, in the case of the second embodiment, since the expansion and contraction tube 600 exists, And can be spaced a considerable distance from the housing 100.

To this end, the expansion and contraction tube 600 is formed in a folding type that can be folded up and down, and is formed in the form of a downwardly directed light to pursue stability. In other words, if it is formed as a counterclockwise topographic depression, it will be buoyant in water and become unstable.

The lower end of the extension pipe 600 is fitted into the water discharge port 210 of the discharge guide cover 200 and the upper end thereof is fitted into the discharge hole 310 of the distribution and discharge guide 300.

In addition, since they are disposed in the water, there is no problem in pumping up the water, and the pumped water is discharged to the branch flow channel 320 through the expansion and contraction pipe 600, and the same bubble generating function as that of the first embodiment .

As another example, the third embodiment can be implemented as shown in FIG.

The third embodiment according to the present invention contributes to miniaturization of the aspirator.

9 includes only the lower housing 100, the discharge guide cover 200, and the discharge unit 700. [

Therefore, it is possible to achieve miniaturization while simplifying the structure, and it is also possible to apply the expansion pipe 600 if necessary.

The lower housing 100 and the discharge guide cover 200 are as described above and the discharge unit 700 includes a cylindrical body 710 assembled to the water discharge port 210 of the discharge guide cover 200, A plurality of fixing pieces 720 extending in a substantially 'A' shape around the upper end of the body 710, a suction pipe 730 fixed to an end of the fixing piece 720, a lower end of the suction pipe 730, And a discharge inducing member 740 fixed to the fixing piece 720 at an interval and protruding in an inverted conical shape toward the center of the circle of the cylindrical body 710.

10, the water introduced into the lower portion of the cylindrical body 710 is pumped up by the discharge inducing member 740 and then discharged through a space between the fixing pieces 720 .

At this time, because there is a gap, that is, a clearance, between the upper end of the discharge inducing member 740 and the lower end of the suction pipe 730, air is sucked through the suction pipe 730 during water discharge, .

The principle that air is sucked in to enable such bubbles is also a venturi effect. That is, since the water discharge does not occur at the lower end of the suction pipe 730 but occurs only at the outer side of the suction pipe 730, a pressure fluctuation occurs at the upper center of the discharge inducing member 740 which is the lower end of the suction pipe 730 according to the discharge flow of water, The air is sucked through the suction pipe 730.

As a result, the present invention can generate highly efficient bubbles even with a simple and simple structure, thereby enabling downsizing and weight reduction.

100: Lower housing 200: Discharge guide cover
300: Dispense and Discharge Guide 400: Sealed Cover
500: upper housing

Claims (5)

A lower housing (100) having a water inlet (130) formed on one side and an upper side opened;
A driving motor 140 installed in the lower housing 100 and having an impeller 142 for sucking water through the water inlet 130 and discharging the water upward;
A discharge guide cover 200 which hermetically seals the upper portion of the lower housing 100 and has a water discharge port 210 formed at one side thereof;
And an ejection hole 310 communicating with the water outlet 210. The water ejected through the ejection hole 310 is branched into left and right sides of the ejection hole 310, A dispensing and dispensing guide (300) having a dispensing opening (340) for dispensing;
A sealing cover 400 having a plurality of air suction holes 410 for sealing the upper portion of the dispensing and dispensing guide 300 and allowing external air to be sucked into the discharge ports 340;
And an upper housing (500) having an air vent hole (510) for sealing the upper part of the hermetic cover (400) and introducing air from the outside,
The discharge ports (340) are provided symmetrically on both sides of the dispensing / discharging guide (300) in the width direction, and are symmetrically formed in a longitudinal direction so as to be multi-shaped so as to attenuate noise by mixing The writer. delete delete A lower housing (100) having a water inlet (130) formed on one side and an upper side opened;
A driving motor 140 installed in the lower housing 100 and having an impeller 142 for sucking water through the water inlet 130 and discharging the water upward;
A discharge guide cover 200 which hermetically seals the upper portion of the lower housing 100 and has a water discharge port 210 formed at one side thereof;
And an ejection hole 310 communicating with the water outlet 210. The water ejected through the ejection hole 310 is branched into left and right sides of the ejection hole 310, A dispensing and dispensing guide (300) having a dispensing opening (340) for dispensing;
A sealing cover 400 having a plurality of air suction holes 410 for sealing the upper portion of the dispensing and dispensing guide 300 and allowing external air to be sucked into the discharge ports 340;
And an upper housing (500) having an air vent hole (510) for sealing the upper part of the hermetic cover (400) and introducing air from the outside,
The extension pipe 600 is installed between the discharge guide cover 200 and the dispensing and dispensing guide 300. The lower end of the extension pipe 600 is assembled to the water discharge port 210, ) Is assembled to the ejection hole (310). A lower housing (100) having a water inlet (130) formed on one side and an upper side opened; A driving motor 140 installed in the lower housing 100 and having an impeller 142 for sucking water through the water inlet 130 and discharging the water upward; A discharge guide cover 200 which hermetically seals the upper portion of the lower housing 100 and has a water discharge port 210 formed at one side thereof; And a discharge unit (700) assembled to the water discharge port (210) of the discharge guide cover (200)
The ejection unit 700 includes a cylindrical body 710 assembled to the water outlet 210 of the discharge guide cover 200 and a plurality of fastening members 710 extending in the upper end of the cylindrical body 710, A suction pipe 730 fixed to an end of the fixing piece 720 and a suction pipe 730 fixed to the fixing piece 720 at a distance from a lower end of the suction pipe 730, And an exhaust guide member (740) protruding in an inverted conical shape toward the center.

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