KR101508057B1 - A Vacuum dranage pump - Google Patents

Abstract

The present invention can stably pump various fluids by vacuum suction through a screw impeller. In addition, it is possible to stably pump various fluids by structurally increasing the vacuum suction force of the screw impeller, And a pump tube (3) for pumping and sucking the wastewater contained in the receiving tube (2) by vacuum suction, the vacuum suction pump comprising:
The pump tube 3 is connected to an outlet of the receiving tube 2 and is provided with a screw 5 having a screw impeller 7 axially fixed to a rotating shaft 6 which is rotated by receiving the power of the motor 5, A housing (9) having a suction pipe (8), a discharge port of the screw suction pipe (8) fixedly connected to the discharge port and having a cylindrical rotor chamber therein and having an inlet and a discharge outlet at one end thereof; And a vacuum pump discharge portion (11) having a disk impeller (10) disposed in the chamber and connected to rotate about a central axis and having a vane rib for pumping fluid on one surface thereof;
The center of the rotary shaft 6 to which the screw impeller 7 is axially coupled is eccentrically located at a downward position with respect to the center of the screw suction pipe 8,
And a slope piece (12) inclined in the direction of the arrow is formed on the front end of the screw impeller (7).

Description

[0001] The present invention relates to a vacuum pump,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vacuum suction pump for pumping a fluid using a vacuum suction force, more particularly, to a vacuum suction pump for stably pumping various fluids through a screw impeller, And more particularly, to a vacuum suction pump capable of structurally increasing a vacuum suction force to smoothly pump a fluid.

Generally, a vacuum suction pump for vacuum pumping a fluid through rotation of a screw impeller is mainly used for waste treatment in ships, airplanes, and trains.

The vacuum suction pump can be used on the ground as well as the vacuum suction pump, and can be smoothly discharged even when a small amount of water is introduced, and the use of the vacuum suction pump is gradually increasing.

Korean Patent Registration No. 10-0141360 (name: vacuum drain pump) is one of the above vacuum suction pumps.

The vacuum drain pump described above is connected to the sanitary facility and opens to the collecting pipe, a branch pipe connected to the collecting pipe, a vacuum is supplied to the pipe, and the sewage is transported from the sanitary facility to the collecting tank or the purification device Wherein the vacuum pump includes one or several arbitrarily selected screw pumps, wherein the screw pump is equipped with a pulverizer for pulverizing solids or a pulverizing device for pulverizing solid matter in sewage water, And is directly connected to the screw pump collecting pipe.

However, the conventional vacuum suction pump as described above has a problem that the vacuum pumping force can not be efficiently increased because the vacuum suction force is made by the screw impeller and the vacuum efficiency can not be further increased.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a vacuum cleaner capable of stably pumping various fluids by vacuum suction of a fluid through a screw impeller, And to provide a vacuum suction pump that structurally increases the suction force so as to smoothly pump the fluid.

According to another aspect of the present invention, there is provided a vacuum suction pump comprising: a vacuum suction pump including a receiving tube for receiving and containing fluid, and a pump tube for pumping the wastewater accommodated in the receiving tube by vacuum suction, ;

The pump tube includes a screw suction pipe connected to an outlet of the receiving tube and having a screw impeller fixed to a rotating shaft which is rotated by receiving a power of a motor, and a discharge port of the screw suction pipe, A housing having a cylindrical rotor chamber and having an inlet through which fluid is introduced at one end and an outlet through which the fluid is introduced; and a disk impeller disposed in the chamber and coupled to rotate about the central axis and having a vane rib pumping fluid on one side A vacuum pump discharge portion; The center of the rotary shaft of which the screw impeller is axially coupled is eccentrically located at a downward position with respect to the center of the screw suction pipe, and an inclined piece inclined in the oblique direction is formed at the front end of the screw impeller.

And a plurality of pressing pieces are spaced apart from each other on the surface of the screw impeller.

The surface of the screw impeller is formed with a scratch groove in which air contained in the fluid is crushed.

In the vacuum suction pump according to the present invention as described above, when the fluid in the receiving pipe is sucked and discharged to the vacuum pumping and discharging unit by rotating the screw impeller in a state where the screw impeller is positioned eccentrically inside the screw suction pipe, The vacuum pumping force is increased, and the fluid is moved more smoothly as the fluid is further pressed by the plurality of pressing pieces formed on the surface of the screw impeller. And the air contained in the fluid is pulverized by the friction with the scratch groove formed on the surface of the screw impeller to be microbubbed.

1 is a schematic cross-sectional exemplary view of a vacuum suction pump according to an embodiment of the present invention;
Fig. 2 is a cross-sectional view showing a screw suction pipe applied to the vacuum suction pump according to the embodiment. Fig.
FIG. 3 is a partially enlarged perspective view showing a screw impeller applied to a vacuum suction pump according to the present embodiment; FIG.
Fig. 4 is a partially enlarged schematic perspective view showing another example of a screw impeller applied to a vacuum suction pump according to the present embodiment. Fig.
Fig. 5 is a partially enlarged schematic perspective view showing still another example of a screw impeller applied to a vacuum suction pump according to the present embodiment; Fig.

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

The embodiments of the present invention may be modified into 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 3 are diagrams showing a vacuum suction pump according to an embodiment of the present invention. The vacuum suction pump 1 according to the present embodiment is mainly used for waste treatment in ships, airplanes, and trains (2) for receiving and containing fluid (wastewater), and a pump tube (3) for pumping and sucking the wastewater stored in the water collection tube (2) by vacuum suction.

It is preferable that a crushing cutter 4 for crushing the solid content contained in the fluid is provided between the receiving pipe 2 and the pump pipe 3.

That is, the solid material contained in the fluid received in the receiving tube 2 is subjected to the drainage treatment through the vacuum pumping force generated in the pump tube 3 while pulverizing the solid matter through the pulverizing cutter 4.

In the vacuum suction pump 1 according to the present embodiment as described above, the above-described pulverizing cutter 4 has an inner space between the receiving tube 2 and the pump tube 3, as shown in Fig. 1, , And is rotatably coupled to a rotating shaft (6) rotated by receiving the rotational force of the motor (5) and has a plurality of penetrating compartment spaces therein, and a shattering blade for crushing solid matter is formed on the inner circumferential surface of the compartment space But it is not limited thereto.

Therefore, while the fluid received in the receiving tube 2 passes through the compartment space of the body and is conveyed to the pump tube 3, the fluid is continuously crushed and sintered by the crushing blade provided on the inner peripheral surface of the compartment space .

That is, when the body rotates, the solid matter is crushed in the compartment space by the rotating crushing blade.

In the vacuum suction pump 1 according to the present embodiment as described above, the pump tube 3 is connected to the outlet of the receiving tube 2 and is rotated by receiving the power of the motor 5 A screw suction pipe 8 provided with a screw impeller 7 axially fixed to the rotary shaft 6; a screw suction pipe 8 fixed to the discharge port of the screw suction pipe 8 so as to be connected to the space, having a cylindrical rotor chamber therein, And a disk impeller (10) having a housing (9) having an inlet through which a fluid is introduced and an outlet through which the fluid is pumped, and a disk impeller (10) disposed in the chamber and connected to rotate about a central axis, (11).

That is, the fluid is smoothly introduced into the vacuum pumping and discharging unit 11 through the screw suction pipe 8, which sucks fluid from the receiving pipe 2 and transfers the fluid to the pump pipe 3, And is smoothly drained through the vacuum pumping force generated by the discharge portion 11. [

In the screw suction pipe 8, the fluid is sequentially transferred to the vacuum pumping and discharging part 11 together with the solid material crushed by the crushing cutter 4 by the rotational force of the screw impeller 7, The disk impeller 10, which receives the rotational force of the motor 5, rotates and pumps the fluid by the generated vacuum pumping force.

In the vacuum suction pump 1 according to the embodiment of the present invention as described above, the center of the rotary shaft 6 to which the screw impeller 7 is axially coupled is positioned at a downward position with respect to the center of the screw suction pipe 8 Eccentrically located.

2, when fluid moves from the receiving tube 2 to the vacuum pump discharge portion 11 by the screw impeller 7 while moving in a vortex shape, A pneumatic pressure lower than the upper portion of the screw impeller 6 is formed in the screw suction pipe 6 so that the fluid is sucked more smoothly from the receiving pipe 2 toward the screw suction pipe 8 side.

Therefore, the fluid is more smoothly moved to the vacuum pump discharge portion 11.

In the vacuum suction pump 1 according to the present embodiment as described above, the inclined piece 12 inclined in the oblique direction is formed at the front end of the screw impeller 7 as shown in Fig. 3 So that the fluid is more smoothly conveyed through the inclined flap 12 at the front end of the screw impeller 7 so as to have an extended inflow space.

Hereinafter, the operation and effect of the vacuum suction pump according to the present embodiment will be described in detail.

When the fluid is vacuum pumped using the vacuum suction pump 1 according to the present embodiment, power is first applied to the motor 5 so that the motor 5 generates rotational force, The rotating shaft 6 is rotated by the rotational force.

At this time, the disk impeller 10, the screw impeller 7 and the crushing cutter 4 rotate in the same manner as the rotary shaft 6, and the disk impeller 10 and the screw impeller 7 rotate, A vacuum pressure is generated inside the pump discharge portion 11 and the screw suction pipe 8 so that the fluid introduced into the receiving pipe 2 is discharged via the pump pipe 3.

At this time. In the receiving tube 2, the solid matter contained in the fluid is continuously crushed and sludged by the rotation of the crushing cutter 4, and is smoothly transferred to the pump tube 3.

4 is a view showing another example of a screw impeller applied to the vacuum suction pump according to the present embodiment. The screw impeller 7 applied to the vacuum suction pump according to the present embodiment has a plurality of pressing pieces 13 ) Are spaced apart.

Accordingly, as the fluid is further pressurized by the pressing pieces 13 formed on the surface of the screw impeller 7, the fluid can be more smoothly moved.

5 is a view showing another example of a screw impeller applied to the vacuum suction pump according to the present embodiment. The screw impeller 7 applied to the vacuum suction pump according to the present embodiment has a structure in which air A scratch groove 14 is formed in which a fine grinding is performed.

Accordingly, the air contained in the fluid is pulverized by the friction with the scratch groove 14 formed on the surface of the screw impeller 7 and microbubbed, which is useful.

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 suction pump 2: Reservoir tube
3: pump tube 4: crushing cutter
5: Motor 6:
7: Screw impeller 8: Screw suction pipe
9: housing 10: disk impeller
11: Vacuum pumping and discharging part 12:
13: pressing piece 14: scratch groove

Claims (3)

1. A vacuum suction pump comprising: a receiving tube for receiving and receiving fluid; and a pump tube for evacuating and pumping the wastewater accommodated in the receiving tube;
The pump tube includes a screw suction pipe connected to an outlet of the receiving tube and having a screw impeller fixed to a rotating shaft which is rotated by receiving a power of a motor, and a discharge port of the screw suction pipe, A housing having a cylindrical rotor chamber and having an inlet through which fluid is introduced at one end and an outlet through which the fluid is introduced; and a disk impeller disposed in the chamber and coupled to rotate about the central axis and having a vane rib pumping fluid on one side A vacuum pump discharge portion;
Wherein a center of a rotary shaft to which the screw impeller is axially coupled is eccentrically located at a downward position with respect to a center of the screw suction pipe, and an inclined piece inclined in a zigzag direction is formed at a front end of the screw impeller. .
The method of claim 1, further comprising:
On the surface of the above-mentioned screw impeller,
And the plurality of pressure pieces are spaced apart from each other.
The method of claim 1, further comprising:
On the surface of the above-mentioned screw impeller,
Wherein a scratch groove in which air contained in the fluid is pulverized is formed.

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