KR101659699B1 - A Air Seal Device of a Vacium Self-priming Pump - Google Patents

Abstract

The present invention provides an air blocking device for a vacuum self-priming pump formed to smoothen initialization after pumping a fluid and to facilitate rework. The air blocking device for the vacuum self-priming pump includes: a pipe body (20) with an outlet (21) connected to an air discharge pipe (5) and an inlet connected to an entry of a pump chamber (3); a buoy (30) capable of being moved in a vertical direction inside the pipe body (20) by the fluid and buoyancy; and an opening member (40) opening and closing an end of the air discharge pipe (5). The opening member (40) includes: an opening plate (41) of which a top surface closes the end of the air discharge pipe (5) by adhering to the end of the air discharge pipe (5) and having an extension rod (412) at the bottom, wherein the extension rod (412) is extended downward and a through-hole (411) penetrates through the center of the extension rod (412) in a vertical direction; a fixated body (43) arranged between the outlet (21) of the pipe body (20) and the air discharge pipe (5) and having an internal fixated pipe (42) with a through-hole (422) fixated and penetrated through to allow a lower part of the extension rod (412) to be positioned inside the pipe body (20); and an opening pin (45) closing the through-hole (411) and having a lower part connected to an upper part of the buoy (30) and an upper part inserted and fixated to move in a vertical direction inside a connection pipe (44) coupled to the lower part of the extension rod (412).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air seal device for a vacuum pump,

The present invention relates to an air shielding device applied to a vacuum force suction pump of Korean Patent Registration No. 10-791044 of the present applicant, and more particularly, to an air shielding device which can smoothly perform initialization after a fluid pump, And to an air interrupter for a vacuum pump.

Generally, a pump is a device that pumps the fluid upward to forcibly move the fluid when the fluid is below the discharge port, and is used to move or circulate the fluid.

The pump is designed to be fully filled with water in the pump chamber at the initial stage of operation. In the past, a pump or a water-ring type vacuum pump, which is manually operated or continuously supplied with a certain amount of water, The air inside the pump chamber is evacuated to make the pump vacuum.

However, when the conventional pump and the water pump type vacuum pump are used to pump water containing a lot of sludge, it is necessary to initially fill the inside of the pump chamber with water.

That is, when air remains in the inside of the pump chamber, the vacuum pump is not properly provided, and the workability is deteriorated.

The applicant of the present invention has proposed a vacuum pump for sucking fluid in a vacuum state by forming the inside of the pump chamber into a vacuum state without initially being filled with water to solve the conventional problems as described above .

[0004] As described above, the vacuum force pulling pump proposed by the present applicant is Korean Patent Registration No. 10-791044 (name: vacuum force pulling pump). The vacuum pulling force pump is, as known in the art, And an air discharge means for discharging the air in the pumping chamber to the outside, and a one-way check valve is installed to prevent the fluid from flowing back to the discharge port of the pumping chamber, By forcibly discharging the fluid to the outside to generate a pressure difference, it is possible to more easily move the fluid pumped by the motor, thereby shortening the working time and minimizing the power consumption, thereby improving the efficiency of the work.

1. Korean Patent Registration No. 10-791044

However, the above-described vacuum pump of the Korean Patent Registration No. 10-791044 proposed by the applicant of the present invention, when the operation of the vacuum pump of the fluid is completed, when the operation is to be resumed, There is a problem in that the air shutoff device is continuously kept in a vacuum state of the air exhaust means, so that the initialization is not performed and the reworking can not be continuously performed.

That is, since the air shutoff means can not perform the opening operation of the air due to the vacuum state of the air exhaust means and maintains the closed state, the initialization is not properly performed.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to improve an air shutoff device applied to a vacuum force suction pump of Korean Patent Registration No. 10-791044 of the present applicant, It is possible to smooth the initialization after the completion of the pump of the fluid, and to facilitate the reworking.

In order to accomplish the above object, the present invention provides a vacuum interrupter for a vacuum forced-air suction pump, comprising: a motor; a pump chamber having a space of a predetermined size and connected to a rotating shaft of the motor, An air discharge pipe communicating with the pump chamber of the body to move the air in the pump chamber, and an air outlet communicating with an end of the air discharge pipe to discharge the air in the pump chamber to the outside Wherein the vacuum pump is installed between the end of the air discharge pipe and the pump chamber to open and close the inside of the air discharge pipe, A tubular body having an outlet connected to the air discharge pipe and an inlet connected to an inlet of the pump chamber; And an open / close member for opening and closing the end of the air discharge pipe in accordance with the lifting / lowering of the rich member; Wherein the opening and closing member includes an opening and closing plate having an upper surface that is in close contact with an end portion of the air discharge pipe and has a through hole formed in a bottom surface thereof and extending downward at a bottom surface and vertically passing through the center thereof, And a fixing pipe having a through hole communicated with the through hole so that the lower end of the extending bar is fixed to the inside of the tubular body at the center of the receiving hole, And an opening / closing pin which is fixed to the upper end of the rich portion and whose upper end is inserted and fixed in the connecting pipe fastened to the lower end of the extending rod so as to be vertically movable, The support ribs are connected to the fixing pipe and are spaced apart from the discharge port so as to open the discharge port. The support ribs are spaced apart from each other with a space therebetween. Are formed and arranged.

In the air blocking device for a vacuum forced draft pump according to the present invention, when the fluid is pumped, the air discharge pipe is closed smoothly after the air in the pump chamber is completely discharged to maintain the vacuum state of the pump chamber , And after the pumping operation of the fluid is completed, the vacuum is released to the inside of the air discharge pipe and the air discharging means by smoothly releasing the vacuum state of the air discharge pipe and the air discharging means by opening the through hole to the self- It has an effect.

Thus, the rich state can be stably returned to the home position, so that the initialization is smoothly performed, and the vacuum pump operation is continuously and smoothly performed.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a vacuum force suction pump to which an air cutoff device for a vacuum force suction pump according to an embodiment of the present invention is applied; FIG.
FIG. 2 is a schematic view showing an air shielding apparatus for a vacuum pump for sucking a vacuum according to an embodiment of the present invention; FIG.
Fig. 3 and Fig. 4 are schematic views showing excerpts of a part of an air shielding device for a vacuum forced-air suction pump according to the present embodiment.
Figs. 5 to 9 are schematic views showing the use state of the air shielding device for a vacuum force suction pump according to the present embodiment. Fig.

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

The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. This embodiment is provided to more fully describe the present invention to those skilled in the art. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Detailed descriptions of well-known functions and constructions which may be unnecessarily obscured by the gist of the present invention are omitted.

1 to 9 are views showing an air shielding apparatus for a vacuum force suction pump according to an embodiment of the present invention. The air shielding apparatus 1 according to the present embodiment includes a motor 2, (4) having a pump chamber (3) made up of a space part and connected to a rotating shaft of the motor (2) to rotate the pump to draw fluid from the suction port and discharge the fluid to the discharge port, 3 for communicating with an end of the air discharge pipe 5 to discharge the air in the pump chamber 3 to the outside, And is installed between the end of the air discharge pipe 5 and the pump chamber 3 so as to open and close the inside of the air discharge pipe 5.

That is, it is provided between the air discharge pipe 5 and the inlet of the pump chamber 3 to open and close the end of the air discharge pipe 5 by using buoyancy of the fluid inside the pump chamber 3.

The air blocking device 1 according to the present embodiment includes a tubular body 20 having an outlet 21 connected to the air discharge pipe 5 and an inlet 22 connected to an inlet of the pump chamber 3; An openable and closable member 30 for opening and closing the end of the air discharge pipe 5 in accordance with the ascending and descending of the rich member 30, (40).

That is, when the valve 30 is lifted up and down by the buoyant force of the fluid, the opening and closing member 40 opens and closes the end of the air discharge pipe 5.

In the air shutoff device 1 according to the present embodiment as described above, the opening / closing member 40 has a top surface that is in close contact with the end portion of the air discharge pipe 5 and is closed, An opening and closing plate 41 provided with an extending rod 412 having a through hole 411 formed therein and an opening and closing plate 41 disposed between the outlet 21 of the tube 20 and the air outlet pipe 5, And a through hole 422 is formed at the center of the receiving hole 421 and is fixed to penetrate the lower end of the extending rod 412 so that the lower end of the extending rod 412 is positioned inside the tubular body 20 The upper end of the fixing pipe 42 is fixed to the upper end of the pipe 30 and the upper end of the fixing pipe 42 is connected to the lower end of the connecting pipe 44, And an opening / closing pin 45 which is movably inserted and fixed so as to open and close the through hole 411.

That is, the air in the pump chamber 3 is supplied to the air discharge pipe 5 through the discharge port 21 and discharged to the outside, thereby forming the pump chamber 3 in a vacuum state.

The fluid is introduced into the pump chamber 3 until all the air is exhausted and the opening and closing plate 41 is raised by the valve 30 to close the end of the air discharge pipe 5, The air in the pump chamber 3 is smoothly discharged through the air discharge pipe 5.

After the pumping operation of the fluid is completed, the rich portion 30 is lowered and the air hole 411 is opened to inject air into the air discharge pipe 5 through the through hole 411 The vacuum state inside the air discharge pipe 5 and the air discharge means 6 is released and the rich 30 and the opening and closing plate 41 are stably returned to the original position.

The through hole 411 is opened and closed by moving the opening and closing pin 45 upward and downward within the coupling pipe 44 by buoyancy of the richer 30, The opening / closing pin (45) smoothly opens and closes the through hole (411).

The upper surface of the opening and closing pin 45 is preferably provided with a sealing element 451 made of an elastic material so as to seal the through hole 411 more smoothly.

The connection pipe 44 is formed with an air flow hole 441 communicating with the inside and outside so as to supply air to the through hole 411 through the air flow hole 441. [

In the air blocking device 1 according to the present embodiment, the fixing member 43 is connected to the fixing pipe 42 and the opening / closing plate 41 is fixed to the inside of the fixing member 43 And the support connection ribs 50 are formed integrally with the support connection ribs 50 so as to be spaced apart from the discharge port 21 so as to open the discharge port 21 and allow the air to flow.

That is, the opening / closing plate 41 is not closed by the support connection rib 50 so that the air is smoothly connected by spatially connecting the reception hole 421 and the discharge port 21 It is intended to be circulated.

It is preferable that a guide pin 31, which is inserted into the inlet 22 and guided when it is moved up and down, is fixed to a lower portion of the above-

 Accordingly, the superfluous member 30 is vertically moved in the tubular body 20 by the guide pin 31 in a predetermined position.

The guide pin 31 is provided with a weight 32 so as to further facilitate the descent of the auxiliary member 30 so that the initialization operation of the opening and closing member 41 is facilitated.

It is preferable that the opening and closing plate 41 is provided with a sealing ring 60 which is brought into close contact with the end 5 of the air discharge pipe when the sealing ring 60 is in contact with the end 5, Most preferred.

The upper surface of the opening and closing plate 41 is provided with an extension pipe 70 integrally formed with a plurality of holes communicating with the inside and outside so as to enter the inside of the air discharge pipe 5 when the air discharge pipe 5 is in contact therewith .

That is, when the opening / closing plate 41 is lifted through the extension pipe 7, it is preferable that the opening / closing plate 41 is moved up and down from a predetermined position.

The operation and effect of the air shielding device 1 according to this embodiment will be described in detail as follows.

5, when the air is sucked through the air discharge pipe 5, the fluid is sucked and received in the pump chamber 3, and the fluid flows into the tubular body 20, The rich 30 is raised.

6, the opening / closing pin 45 is connected to the upper end of the extension rod 412 of the opening / closing plate 41 so as to extend upwardly And the opening / closing plate 41 is moved upward to close the end of the air discharge pipe 5.

That is, it prevents the inflow of the fluid into the air discharge pipe 5, and the air discharge pipe 5 forms a vacuum state at this time.

At this time, the opening / closing pin 45 is pressed upward by the coin 30 to close the through hole 411.

As described above, in the state where the opening / closing plate 41 closes the air discharge pipe 5, an operation of vacuum-pumping the fluid through the pump chamber 3 is performed, and the pumping operation of the fluid is completed, As shown in FIG. 8 and FIG. 9, when the fluid is discharged from the tubular body 20, the buoyancy of the fluid 30 is lost and the fluid 30 is lowered. As shown in FIGS. 8 and 9, The opening / closing pin 45 moves downward due to the descent of the pin 30.

9, as the air is introduced into the air discharge pipe 5 via the through-hole 411, the vacuum state of the air discharge pipe 5 is maintained Is released.

Therefore, the opening / closing plate 41 is smoothly separated from the air discharge pipe 5 and is returned to the initial position and is initialized to open the air discharge pipe 5 to freely move air through the air discharge groove 423 .

Air is injected into the air discharge pipe 5 through the through hole 411 to release the vacuum state of the air discharge pipe 5 and the air discharge means 6, ) Is returned to the home position and initialized, so that the reworking is continuously and smoothly performed.

It will be apparent to those skilled in the art that various modifications and equivalent arrangements may be made therein without departing from the scope of the present invention as defined by the appended claims and their equivalents. . Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

1: air cutoff device 2: motor
3: pump chamber 4: body
5: air discharge pipe 6: air discharge means
10: vacuum force pump 20: tube
21: outlet 22: inlet
30: rich 31: guide pin
32: weight 40: opening / closing member
41: open / close plate 411: through hole
412: extension rod 42: fixing pipe
421: receiving hole 422: penetrating hole
43: Fixture 44: Connector
441: air circulation hole 45: opening / closing pin
451: Closure element 50: Support connection rib
60: sealing ring 70: extension tube

Claims (1)

(4) having a motor (2), a pump chamber (3) made up of a space of a certain size and connected to a rotation shaft of the motor (2) to rotate and suck fluid from a suction port and discharge the fluid to a discharge port An air discharge pipe 5 communicating with a pump chamber 3 of the body 4 to move the air in the pump chamber 3 and an air discharge pipe 5 communicating with an end of the air discharge pipe 5, (5) and the pump chamber (3), and is connected to the inside of the air discharge pipe (5) by being installed between the end of the air discharge pipe (5) Thereby opening and closing the door.
A tubular body 20 having an outlet 21 connected to the air discharge pipe 5 and an inlet 22 connected to an inlet of the pump chamber 3; An openable and closable member 30 for opening and closing the end of the air discharge pipe 5 in accordance with the ascending and descending of the rich member 30, (40);
The opening / closing member (40)
An opening and closing plate 41 having an upper surface sealed with the end portion of the air discharge pipe 5 and provided with an extending rod 412 having a through hole 411 extending vertically downward at the center thereof, (421) which is disposed between the discharge port (21) of the tubular body (20) and the air discharge pipe (5) and accommodates the opening / closing plate (41) A fixed body 43 provided with a fixing pipe 42 having a through hole 422 fixed to the bottom of the tubular body 20 so as to be positioned inside the tubular body 20, And an opening / closing pin 45 which is fixed to the upper end and is inserted and fixed in the connecting pipe 44 fastened to the lower end of the extending rod 412 so as to be movable up and down to open / close the through hole 411 I will;
In the interior of the fixing body 43,
And a supporting link 42 that is connected to the fixing pipe 42 and supports the opening 21 in the fixing member 43 so as to be spaced apart from the discharging port 21 inside the fixing member 43, And the ribs (50) are integrally formed and arranged with a space therebetween.

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