KR910006281Y1 - Aspirator - Google Patents

Abstract

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Description

Aspirator

1 is a conceptual diagram showing the configuration of a conventional aspirator.

2 is an exploded perspective view showing the configuration of the aspirator of the present invention.

3 is a cross-sectional view of main parts taken along the line AA ′ of FIG. 2.

* Explanation of symbols for main parts of the drawings

3a, 3b: mounting groove 4: connecting nose

4a: rib 5: inlet sleeve

5a: Introduction passage 6: Nozzle peice

8: communication hole 9: air suction pipe

The present invention relates to an aspirator, and more particularly, to an aspirator using the Venturi effect.

Commonly used to make a vacuum is a vacuum pump, which can provide a high vacuum, but since the vapor of the working oil is mixed in the vacuum, the contamination of the sample is a problem in the laboratory and is rarely used. Accordingly, an aspirator is mainly used to create a vacuum in a laboratory, and an example of the electric aspirator is illustrated in FIG. 1.

The aspirator rotates a vane 10 'coupled to the rotation shaft 16' of the motor M in the operating chamber W 'of the main body 3 positioned under the water surface to introduce the inlet port ( The water flowing from the inlet port 5 'is discharged to the outlet nose 4' by centrifugal force, and the discharged water stream is provided with a nozzle 6a through a conduit 7 '. It is not shown by supplying to the vibrator head 6 'and providing a negative pressure to the air suction pipe 9 by the reduction of the positive pressure due to the acceleration of water flow in this nozzle 6a, that is, the Venturi effect. It is configured to evacuate the container to form a vacuum of about 2 to 60 Torr. On the other hand, the main body 3 located under the water surface is coupled to and supported by the tip of a support sleeve 15 'extending downward from the support plate 17.

However, in order to immerse the conventional aspirator at a sufficient depth, the rotation shaft 16 'and the support sleeve 15' become considerably longer, so that the vibration and the noise increase, as well as the diameter of the rotation shaft 16 '. As it becomes larger, its own weight increases, which further increases vibration and noise.

In addition, since the conduit 7 'is not only long, but the conduit is changed by 180 °, the head loss due to the conduit and curvature is large, so that the efficiency of the aspirator is lowered, thereby lowering the vacuum degree.

On the other hand, the aspirator head 6 'is usually made of corrosion-resistant brass, and the pipeline of the water pipe 7' is long, where water vapor is mixed in the water stream, and the mixed water vapor passes through the nozzle 6a and vapor pressure is reduced. Since the falling, so-called cavitation (cavitation) occurs, the aspirator head (6 ') is corroded, there was also a problem that its life is very short.

In addition, since there is no check valve, water and air are introduced into the air suction pipe 9 when the aspirator is weighted off, and thus, the vibration state in the container is broken and water penetrates.

The present invention was devised to solve various problems of the related art, and can be used without attaching a separate aspirator head, and an object of the present invention is to provide an aspirator without the occurrence of pipeline loss or noise vibration. do.

In order to achieve the above object, the aspirator of the present invention discharges water from vanes rotating in the operating chamber of the main body and accelerates the water into the nozzles, thereby evacuating the air from the air suction pipe. In the radar, the nozzle chamber is coupled to the middle of the pipe passage extending in the circumferential direction and the outer side communicating with the operating chamber, and a connection nose coupled to the air suction pipe is installed above the downstream side thereof, and the connection nose and the pipeline It is characterized in that the nozzle piece downstream side of the communication through the communication hole.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the subject innovation aspirator will be described in detail.

The aspirator of the present invention shown in FIG. 2 has a cavity constituting an upper portion of the operating chamber W, and a rotating shaft 16 of a motor (not shown) extending into the support sleeve 15. An upper plate 1 through which the axial through hole 1a is formed, and a connection nose 4 to which an air suction pipe (not shown) is connected, and a mounting groove 3a in communication therewith; A lower plate 2 having a cavity constituting a lower portion of the operating chamber W, and having a sleeve 5 formed therein with an introduction passage 5a into which water is introduced, extending downward, and having a mounting groove 3b formed therein. It is provided.

In the above embodiment, since the two air suction pipes can be simultaneously connected to each other, the connection nose 4 and the mounting grooves 3a and 3b are each constituted by a pair, which is one of the conventional configurations. It may be configured to include. (In FIG. 1, reference numeral 10 denotes a vane coupled to the tip of the rotating shaft S, 11 denotes a gasket for watertightness, and 12 denotes a gasket groove.)

The upper plate 1 and the lower plate 2 may be combined in various ways, such as bolting or joining, in which the nozzle piece 6 is coupled in the mounting grooves 3a and 3b, and the nipple It is preferred that nipple pieces 7 are selectively joined.

In the above, the structure of the connection nose 4, the mounting grooves 3a and 3b, the nozzle piece 6, and the nipple piece 7, and the coupling relationship thereof will be described in more detail with reference to FIG.

In the mounting grooves 3a and 3b, the nozzle coupling jaw 3C on which the nozzle piece 6 is caught and supported and the nipple coupling jaw 3d on which the nipple piece 7 is selectively caught and supported are respectively mounted in the mounting groove ( It is formed in the groove shape along the inner surface of 3a, 3b, and the communication hole 8 is formed in the downstream of the nozzle engaging jaw 3C to the connection nose 4 of the upper part.

A cylindrical space is formed at an upper portion of the connection nose 4, and a nipple 13 to which an air intake pipe 9 is coupled is coupled to an upper end thereof, and a plurality of ribs 4a protrude radially from a lower portion thereof. Thus, a seat-type valve tube 14 is placed on the rib 4a.

The operation of the inventive aspirator having the above configuration is as follows.

First, the container (not shown) is coupled to the air suction pipe (9), and the aspirator of the present invention is placed under the water, and then the motor (not shown) is started. W) Rotates the inside and introduces water through the inlet sleeve 5 and exerts centrifugal force into the conduit formed by both mounting grooves 3a and 3b.

The inflow of water flow is accelerated through the nozzle piece 6 to reduce the static pressure, and the negative pressure generated is transmitted to the space of the connection nose 4 through the communication hole 8, and thus the air suction pipe 9 is provided. Air in the container (not shown) is sucked through the communication hole 8 and mixed into and discharged from the water flow flowing out of the nozzle piece 6 to provide a vacuum in the container. At this time, the valve tube 14 is in close contact with the upper end of the rib (4a) by the down stream, but the passage of air through the side there is no problem.

When the air is discharged and the motor is stopped or water flows through the communication hole 8 due to the pressure abnormality, the valve plate 14 is lifted by this rising water, and the lower hole of the nipple 13 is closed. Since it blocks, the water does not flow back into the container through the air suction pipe (9).

On the other hand, the nipple piece 7 does not need to be used when the present aspirator is placed directly under the surface of the water, but, for example, the gas to be sucked in the container is contaminated, so it is necessary to maintain the purity of the water used. If there is, such as nipple coupling jaw (3d) coupled to the nipple case (7) may be used as a separation system by connecting the drain pipe not shown in the nipple case (7).

When the aspirator of the present invention is used as described above, it is very easy to use and operate because there is no separate aspirator head, and there is no pipeline loss because there is no water pipe, so the intake efficiency is very high and corrosion caused by cavitation is generated. No problem. In particular, by extending the inlet sleeve downward, the distance between the motor and the main body can be reduced on the water surface, and the length of the rotating shaft is shortened. There is an advantage.

Claims (3)

Earth to discharge water from the air intake pipe 9 by venturi effect generated by vanes 10 and 10 'rotating in the operating chamber W of the main body and accelerating the flow to the nozzle. In the radar, a connection nose coupled to the nozzle piece 6 in the middle of a pipe line extending in the circumferential direction of the operating chamber W and communicating with the outside, and coupled to the air suction pipe 9 above the downstream side thereof. And (4), wherein the connecting nose (4) and the nozzle piece (6) downstream side of the conduit communicate with the communication hole (8). The aspirator according to claim 1, wherein an introduction sleeve (5) having an introduction passage (5a) through which water flows into the lower side of the operating chamber (W) is extended. According to claim 1, wherein the upper portion of the cylindrical space is formed in the connection nose (4) is coupled to the air suction pipe (9), the lower portion of the plurality of ribs (4a) is formed radially, An aspirator, characterized in that the valve plate 14 is mounted on the rib (4a).