KR20170023555A - A vacuum self-priming screw pump - Google Patents

Abstract

The present invention relates to a screw pump which not only increases efficiency for pumping fluid by smoothly generating suction pressure and discharge pressure of fluid but also enables a user to obtain economic benefit by a simplified structure. The screw pump comprises: a motor which receives power from an external source and rotates a rotation axis; a housing which has a rotor chamber which has an impeller, joined to the rotation axis of the motor and rotated, and pumps fluid, an inlet which allows the fluid to be suctioned into the rotor chamber, and an outlet which allows the fluid, pumped from the rotor chamber, to be discharged and has a one direction check valve; an air blocking unit which is installed between one end portion of an air discharge pipe, communicating with the rotor chamber of the housing to allow air in the rotor chamber to pass, and the rotor chamber and opens and closes the one end portion of the air discharge pipe; and an air discharge means which communicates with the other end portion of the air discharge pipe and discharges the air in the rotor chamber. The impeller comprises: a screw unit which is arranged in the direction of the rotation axis in the rotor chamber, is joined to be rotated together with respect to the rotation axis, and is formed as a spiral wing arranged from the inlet in the rotor chamber in a lengthwise direction of the center axis; and a disk unit which is arranged on one portion of the screw unit located in the rotor chamber and generates discharge pressure of the fluid in the direction of the outlet while rotating in the rotor chamber.

Description

Technical Field The present invention relates to a vacuum self-priming screw pump,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vacuum pump for forcibly discharging air in a pump chamber in which a fluid is pumped through a rotational force of a motor to form a vacuum state. More particularly, The structure of No. 10- 0791044 (name: vacuum pump suction pump) is improved to increase the pump efficiency of the fluid by smoothly generating the suction pressure and the discharge pressure of the fluid, respectively, And more particularly to a vacuum pump sucking screw 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.

In this case, the pump must be completely filled with water in the pump chamber at the initial stage of operation to realize a vacuum pump to be smoothly performed.

Accordingly, conventionally, another pump or a water-pumped vacuum pump, which continuously supplies a certain amount of water to the pump chamber, is used to discharge the air inside the pump chamber to make the vacuum state, .

However, in the conventional pump and the water-sealed vacuum pump, when the water containing a lot of sludge is pumped, the pump is not easily performed due to the sludge contained in the water.

The applicant of the present invention has proposed Korean Patent Registration No. 10-0791044 (name: vacuum pump suction pump) to solve the problems of the conventional pump as described above.

As described above, the vacuum forced-air suction pump proposed by the applicant of the present invention has a pump chamber having a motor and a space portion of a predetermined size and is connected to the rotation shaft of the motor and sucks fluid from the suction port 1. A pump having a body having an impeller therein so as to be discharged to a discharge port, the pump comprising: an air discharge pipe communicating with a pump chamber of the body to move air in the pump chamber; An air cutoff unit installed between one end of the air discharge pipe and the body pump chamber to open and close one end of the air discharge pipe; And an air discharge unit communicating with the other end of the air discharge pipe and having an air pump unit for discharging air from the body pump chamber to the outside.

Accordingly, there is provided an air discharge means for communicating with the pump chamber where the fluid is pumped by the motor to discharge the air in the pump chamber to the outside, thereby forcibly discharging the air inside the pump chamber to the outside to generate a pressure difference, It is possible to more easily move the fluid that has been pumped, thereby shortening the working time and minimizing the power consumption, thereby improving the efficiency of the work.

However, in the vacuum forced-air sucking pump proposed by the applicant of the present invention as described above, there is a problem in that the pump efficiency is lowered as the suction pressure and the discharge pressure for sucking and discharging the fluid are generated through a single impeller .

Accordingly, when a plurality of impellers for generating the suction pressure and the discharge pressure of the fluid are respectively provided, there is a problem that the structure is complicated and uneconomical.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above-mentioned problems of the related art, and an object of the present invention is to provide an apparatus and a method for controlling a pump of Korean Patent Registration No. 10- 0791044 There is provided a vacuum pump sucking screw pump capable of improving the pump efficiency of the fluid by smoothly generating the sucking pressure and the sucking pressure of the fluid, respectively, and obtaining an economical gain by simplifying the structure have.

In order to achieve the above object, according to the present invention, there is provided a vacuum pump sucking screw pump comprising: a motor adapted to receive a power from an external source to rotate a rotary shaft; and an impeller rotatably coupled to a rotary shaft of the motor, A housing having a rotor chamber in which a fluid is pumped, an inlet through which fluid is sucked into the rotor chamber, an outlet through which a fluid is pumped out from the rotor chamber and an outlet with a one-way check valve is communicated with the rotor chamber of the housing, An air cutoff portion provided between one end of an air discharge pipe through which the air in the chamber is moved and the rotor chamber to open and close one end of the air discharge pipe and an air cutout portion communicated with the other end portion of the air discharge pipe, And an air discharging means for supplying air to the vacuum pump.

The impeller includes a screw portion disposed in the rotor chamber in the direction of the rotational axis and connected to rotate about the rotational axis thereof and formed of a helical blade disposed in the rotor chamber at the inlet in the longitudinal direction of the rotational axis, And a disc portion provided at a portion of the screw portion located inside the rotor chamber and generating a discharge pressure of the fluid in the direction of the outlet by rotating in the rotor chamber.

The impeller includes a disk-shaped disk ring disposed parallel to the inlet in a direction parallel to the inlet of the impeller and connected to the impeller through a connecting rod, A plurality of vane blades radially disposed on the surface; And a through hole is formed in the center of the disk ring so that the screw portion is received and positioned to allow fluid to flow therethrough.

In the vacuum pump sucking screw pump according to the present invention, the suction pressure of the fluid is formed through the screw portion of the impeller in the rotor chamber, and the discharge pressure is formed through the disk portion and the disk ring, respectively , The pump efficiency of the fluid is increased.

In addition, it has an effect of realizing economical gain by simplifying the structure.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a vacuum pump sucking screw pump according to an embodiment of the present invention; FIG.
Fig. 2 is a schematic view showing an excerpt of a part of a vacuum-strong-magnet sucking screw pump according to the embodiment. Fig.
Fig. 3 and Fig. 4 are schematic views showing an impeller constituting a vacuum-forced-air sucking screw pump according to the present embodiment. Fig.
Fig. 5 and Fig. 6 are schematic views showing the use state of the vacuum pump suction pump according to the present embodiment. Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, referring to the accompanying drawings, a vacuum pump sucking pump according to a preferred embodiment of the present invention will be described in detail.

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 6 are views showing a vacuum pump for sucking a vacuum according to an embodiment of the present invention. In the vacuum pump 1 according to the present embodiment, The pump chamber 3 is pumped, and the air remaining in the rotor chamber 3 is forcibly discharged to form a vacuum state before the pump is pumped through the rotor chamber 3, Can be shortened, power consumption can be minimized, and work efficiency can be improved.

The vacuum pump 1 sucking pump according to the present embodiment has improved the structure of Korean Patent Registration No. 10-791044 (name: vacuum pump suction pump) proposed by the applicant of the present invention, And a rotor chamber (5) in which a fluid is pumped is disposed. The impeller (5) is axially coupled to the rotating shaft (4) of the motor (2) 3, an inlet 31 through which the fluid is sucked into the rotor chamber 3, and a housing 32 through which the fluid is pumped out from the rotor chamber 3 and which has an outlet 32 provided with a unidirectional check valve 6 And an air discharge pipe 8 communicating with the rotor chamber 3 of the housing 7 to move the air remaining in the rotor chamber 3 and the rotor 7 of the housing 7, (3) to open and close one end of the air discharge pipe (8) 9 and comprises the air outlet means 10 of the air discharged to the outside of the rotor chamber (3) of the housing (7) is communicated to the other end of the air discharge pipe (8).

That is, the air remaining in the rotor chamber 3 is forcibly discharged via the air discharge pipe 8 through the air discharge means 10 to form the inside of the rotor chamber 3 in a vacuum state The check valve 6 is opened to pump the fluid through the outlet 32.

This eliminates the need for additional work and means for removing the air in the rotor chamber 3, thereby improving work efficiency.

In the vacuum forced sucking screw pump 1 according to the present embodiment as described above, the air discharging means 10 described above preferably has a structure in which the rotational force of the rotating shaft 4 is received and the air is pumped out And the air discharging means 10 is applied with a conventionally known technology and is most preferably applied according to a user's selection, and a detailed description thereof will be omitted.

As described above, in the vacuum pump 1 according to the present embodiment, the rotational force generated by the motor 2 connected to the rotating shaft 4 is received and the impeller (not shown) (5) rotates to generate a pump pressure to pump the fluid to pump the fluid.

At this time, the inlet 31 is arranged in the longitudinal direction of the rotary shaft 6 in the rotor chamber 3, and the outlet 32 is arranged in the direction of rotation of the impeller 5 in the rotor chamber 3 It is preferable that it is disposed on one side (side).

Accordingly, it is most preferable that the fluid is sucked in the direction of the front end side of the rotor chamber 3 and is pumped with the directionality of being discharged in the side end direction.

That is, as the pump pressure is generated in the longitudinal direction of the impeller 5 when the impeller 5 rotates, the inlet 31 into which the fluid flows is preferably disposed in the longitudinal direction of the impeller 5 Do.

In the vacuum forced sucking screw pump 1 according to the present embodiment, the impeller 5 is arranged in the longitudinal direction of the rotating shaft 4 from the inlet 31 to the inside of the rotor chamber 3 (Outlet side direction) of the rotor chamber 3 at one portion of the screw portion 51 located inside the rotor chamber 3, and a screw portion 51 formed of a helical blade, And a disc portion 52 which rotates inside the rotor chamber 3 to generate a discharge pressure of fluid in a direction toward the outlet 32. [

That is, in the rotor chamber 3, the suction pressure of the fluid is formed through the screw portion 51 of the impeller 5, and the discharge pressure is formed through the disk portion 52, Thereby increasing the pump efficiency of the pump.

At this time, since the suction pressure and the discharge pressure of the fluid are simultaneously formed through a single impeller without providing a plurality of impellers forming the suction pressure and the discharge pressure of the fluid, respectively, the economical gain is realized by simplifying the structure .

The disk portion 52 is preferably integrally formed at one portion of the screw portion 51 and is most preferably provided at an end portion of the screw portion 51.

 The impeller 5 is provided in parallel to the disk 31 in the direction of the inlet 31 with respect to the disk 51, And has a disk ring 53 in the form of a plate.

That is, the fluid introduced into the rotor chamber 3 through the screw portion 51 is separated from the disc portion 52 by the gap between the disc portion 52 and the disc ring 53, And is discharged through the outlet 32 in response to the discharge pressure generated through the rotation of the disk ring 53.

At this time, since the discharge pressure for discharging the fluid occurs simultaneously in the disk portion 52 and the disk ring 53, the discharge pressure is more efficiently generated, and the pump efficiency is improved.

The disc ring 53 is coupled to the disc 52 through a rod-shaped connecting rod 54.

The connecting rod 54 may be a threaded rod and may be screwed to the disc 52.

It is preferable that a plurality of vane vanes 55 are radially provided on the opposed surfaces of the disk 52 and the disk ring 53.

In addition, it is preferable that a through hole 531 is formed in the center of the disk ring 53 so that the screw portion 51 is accommodated and the fluid flows.

In the vacuum forced sucking screw pump 1 according to the embodiment of the present invention as described above, the inlet 32 is provided with an extended suction portion 33, which is formed in a tubular shape outwardly from the rotor chamber 3, And the end of the screw portion 51 of the impeller 5 is preferably formed to have a length that is positioned inside the extended suction portion 33.

It is preferable that the spiral blade constituting the screw portion 51 is formed such that the width gradually increases from the end to the disk portion 52. The inside of the extended suction portion 33 is formed in the end It is most preferable that the inner diameter gradually increases from the inlet to the inlet.

The disk portion 52 of the impeller 5 is preferably disposed at a position close to a wall surface of the rotor chamber 3 opposite to the inlet 31.

Accordingly, as shown in Fig. 5, the extended suction portion 22 stably maintains the suction pressure of the fluid in the direction of the inlet 31 side inside, and, as shown in Fig. 6, The discharge pressure of the fluid is stably formed by the disk portion 52 in the interior of the housing 3.

When the pump is to pump the fluid by using the vacuum pump 1 according to the present embodiment as described above, when the rotary shaft 4 rotates by driving the motor 2, The means 10 is driven with power and the air remaining in the rotor chamber 3 is pumped to the outside through the air discharge pipe 8 so that the rotor chamber 3 is evacuated.

At this time, the one-way check valve 6 provided at the outlet 32 is closed to prevent air from being supplied from outside the rotor chamber 3.

Thus, when the rotor chamber 3 is in the vacuum state, the air discharge pipe 8 is closed through the air cut-off portion 9 to stop power transmission to the air discharge means 10.

Accordingly, the rotor chamber 3 is evacuated by the impeller 5 through the outlet 32, while the one-way check valve 6 is opened and the fluid is pumped.

Accordingly, when the conventional pump is used, water is poured into the pump chamber to remove the air layer, so that water can be easily pumped without any additional operation.

As described above, the vacuum-forced-attraction screw pump 1 according to the present embodiment forms a suction pressure of the fluid through the screw portion 51 of the impeller 5 inside the rotor chamber 3, And the discharge pressure is formed through the discharge port 52, respectively.

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: Vacuum stronger sucking screw pump 2: Motor
3: rotor chamber 31: inlet
32: outlet 33: extended suction part
4: rotating shaft 5: impeller
51: screw portion 52: disk portion
53: disk ring 531: through hole
54: connecting rod 55: vane blade
6: One-way check valve 7: Housing
8: air discharge pipe 9:
10: air discharge means

Claims (2)

A rotor having a rotor to which a fluid is pumped, an inlet through which the fluid is sucked into the rotor chamber, an inlet through which the fluid is sucked into the rotor chamber, A rotor having a first end communicating with the rotor chamber of the housing to move the air in the rotor chamber and an end of the air discharge pipe between the rotor chamber and the rotor chamber, And an air discharging unit communicating with the other end of the air discharge pipe to discharge the air from the rotor chamber to the outside, the vacuum forced suction screw pump comprising:
In the above-described impeller,
A screw portion disposed in the rotor chamber in the direction of the rotational axis and connected to rotate about the rotational axis thereof and formed of helical vanes arranged in the rotor chamber at the inlet in the longitudinal direction of the rotational axis, And a disc portion provided at a portion of the screw portion located inside the rotor chamber and generating a discharge pressure of the fluid in the direction of the outlet by rotating inside the rotor chamber.
The method of claim 1, further comprising:
In the above-described impeller,
Shaped disc ring which is disposed with a gap therebetween in parallel to the inlet side direction with respect to the disc portion and which is coupled through a connecting rod;
On the surface of the disc portion facing the disc ring,
A plurality of vane blades radially provided;
At the center of the disk ring,
Wherein a through hole is formed to receive and distribute the fluid.

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