KR20110116392A - Pump for exclusive use in concentrated slurry - Google Patents

Abstract

In order to provide a concentrated slurry pump for pumping a highly viscous transfer material such as a concentrated slurry into a centrifugal pump, a pressure portion is provided at an outer end in the shape of an impeller wing. This configuration makes it possible to pump highly viscous transferred materials such as highly concentrated slurries. In addition, the present invention, by providing an opening between the wing portion and the wing portion to reduce the frictional force to facilitate the pumping of the highly viscous material to be transported, and the present invention, the transfer between the front casing and the rear casing Viscosity, such as high concentration slurry, by installing a guiding groove for smooth guide of the material, or by installing a pressure screw on the part of the rotating shaft on the inlet side so that the supply of the feed material to the impeller can be supplied evenly. The pumping of this highly transported material is made more efficient, and at the same time, it is possible to prevent possible malfunction of the pump.

Description

Centrifugal pump for concentrated slurry {Pump for exclusive use in concentrated slurry}

The present invention relates to a centrifugal pump dedicated to concentrated slurry, and more particularly, to a concentrated slurry pump configured to be able to pump a concentrated slurry by centrifugal force by improving the centrifugal pump.

An example of a general centrifugal pump is shown in FIG. 1, and the centrifugal pump in FIG. 1 is a pump that exerts a centrifugal force on a liquid flow by a rotating impeller to pump it outward through a vortex chamber. It is arranged to be curved in the shape of a tornado radially. These impellers have no problem in transporting relatively low-density materials such as water, but have high resistance in high-density materials such as dense oils, wastewater sludge, or mixtures thereof, and do not provide sufficient pumping pressure to supply sufficient pumping pressure by the force of the wing alone. . In particular, the conventional centrifugal pump was unable to pump the concentrated slurry.

The present invention has a main object to provide a concentrated slurry pump for pumping a highly viscous transfer material such as a concentrated slurry into a centrifugal pump. Furthermore, the present invention is to provide a concentrated slurry pump that enables pumping by improving the disadvantage that the raw material of high density is not sufficiently pumped by the pressure of the impeller of the conventional centrifugal pump.

In the present invention, the pressure portion is installed at the outer end of the impeller wing so that there is no leakage of pressure in the flow direction of the wing.

The present invention is also to form a guiding groove (Guiding groove guide groove) before and after the impeller for the smoother transfer of the liquid material that is forcibly pressed by the pressure of the impeller.

The present invention also provided a feed screw for more efficient feeding of the liquid material supplied to the impeller.

The present invention also allows the pressure at the time of feeding to be efficiently distributed in the front and rear directions by installing an appropriate opening between the wings and the wings of the impeller.

In the case of claim 1, it is possible to apply an efficient pumping force to the conveying material while supporting the pressure portion that the pressure applied by the blade due to the rotation of the impeller is lost to the outside in the form of the blade in the case of a dense slurry. . That is, by the pressure portion at the end portion of the impeller, the component in the circumferential tangential direction acts at the outer circumferential end of each blade, so that even highly concentrated slurry can be pumped.

In the case of claim 2, the direction of the pressure is bent in the radial direction at the end portion of the curved wing to make the working force more efficient.

In the case of claim 3, by providing an opening in the bottom plate between the wing and the impeller of the impeller to reduce the frictional resistance by the bottom through the opening, thereby reducing the loss of pumping force and at the same time the impact on the impeller By mitigating the pumping efficiency can be further increased.

In the case of claim 4, by installing a pressure screw in the inlet of the centrifugal pump, in the case of a high density or a mixture of high density and low density material such as slurry, the suction force is increased in addition to the suction pressure by the impeller, so that even a highly concentrated slurry can be efficiently sucked. To be able.

In the case of claim 5, by providing a guiding groove in the inner surface of the front casing facing the wing of the impeller, the flow resistance is reduced by guiding the centrifugal motion of the slurry acting by the impeller wing more effectively. .

In the case of claim 6, the pressure generated by the operation of the impeller is efficiently transmitted to the rear rear case side to reduce the flow resistance transmitted through the opening installed in the impeller.

In the case of claim 7, it is not easy to directly process the guide groove on the inner surface of the front and rear casing, but the guiding groove is simply formed by installing the guiding groove in the form of a separate disk, so In addition to being able to be installed in the casing, it is possible to improve wear resistance and reduce frictional force by using a material superior to the casing.

1 is a cross-sectional view of a conventional centrifugal pump,
2 is a cross-sectional view of a representative embodiment of the present invention;
3 is a cross-sectional view of another embodiment of the present invention;
4 is a front view of the impeller of the present invention,
5 is a front view of an inner surface portion of a rear casing showing an example of the guiding groove of the present invention;
6 is a perspective view of the impeller and the disc of the present invention.

Referring to the accompanying drawings, a specific embodiment of the present invention will be described.

The general centrifugal pump has an impeller 3 built in by the front casing 1 and the rear casing 2, and is configured such that the shaft 10 which imparts rotational force to the boss portion of the impeller is fastened, and the front casing is obtained. The liquid material obtained through the part 35 is configured to be pumped through the water outlet 30 by the rotational pressure of the impeller. And the sealing and bearing devices 15, 16 for smooth operation of the rotation of the shaft is installed. Reference numeral 17 denotes a sealing device such as a mechanical seal.

Concentrated slurry pump according to a representative embodiment of the present invention, in the centrifugal pump of the above configuration, the wings (4) continuously arranged in a radially curved direction as shown in Figure 4 toward the outside toward the center boss of the impeller. The pressure part 5 was installed in the outer end of the). The shape, structure, distance between the outer circumferential surface 5b of the bent portion 5a of the pressure unit may be changed depending on the situation of the site to be installed, that is, the type of liquid material to be conveyed, to change the pressure.

In the embodiment of the drawings of the present invention, the pressure unit 5 is to be bent toward the rotation direction (A) of the impeller.

Thus, by installing the pressure portion 5 at the end of each blade 4 of the impeller 3 according to the present invention, the circumference at the outer peripheral end of each blade 4 to the material to be conveyed, in addition to the centrifugal force during rotation of the impeller 3 Since an additional force is applied in the direction, the pumping force to the discharge port 30 is increased, so that it is possible to easily pump a highly viscous transferred material such as a highly concentrated slurry. That is, by the pressure portion at the end portion of the impeller, the circumferential tangential force acts at the outer circumferential end of each blade 4 so that even highly concentrated slurry can be pumped. Further, by bending the direction of the pressure portion 5 in the radial direction, the component force in the rotational direction of the impeller is maximized and the pumping force is maximized.

In another embodiment of the present invention, an opening 6 is provided on the bottom plate 7 between the wing and the wing of the impeller as shown in FIG. The installation of the open portion uniformly distributes the pressure received by the high pressure liquid material back and forth to reduce the frictional resistance of the material to be transported and prevent damage to the impeller, motor, etc. due to possible partial pressure. Furthermore, the uniform dispersion of the pressure eliminated the problem of failure or nonuniformity of the feeding due to unidirectional deflection of a non-uniform slurry-like material.

In another embodiment of the present invention, the guiding grooves 33 are installed in the front and rear casings 1a and 2b of the front casing and the rear casing, respectively, as shown in FIGS. 2 and 5. gave.

This guiding groove can be provided with a separate disk 31 without being directly installed in the inner surface portion of the casing as shown in FIGS. 3 and 6. Although the installation structure of the disk 31 is not shown in detail, it can be fastened to the inner surface portions 1a and 2b by simply screwing, and the configuration of the disk 31 also extends inward to surround and support the rotating shaft 10. It may be formed by.

 In addition, the guiding groove 33 may be configured in six straight lines in the same manner as the number of the blades 4 as in the right disk 31 as in the example of FIG. 6, and in the left disk 31. Although it may be configured as four curved shapes as shown, the number of installation of the guiding groove 33 can be variously changed without being limited thereto. In addition, the planar shape of the guiding groove 33 is also preferably matched with the direction in which the material to be conveyed by the blades 4 by the rotational force of the impeller of the pump dedicated to the concentrated slurry, but may be variously changed without being limited thereto. In some cases, the shape of the arc or the ellipse is preferable so as to guide the slurry while the cross-sectional shape is as low as possible. However, the cross-sectional shape may be changed in various ways such as a curve and a square.

In another embodiment of the present invention to impart a stronger suction force to the material to be sucked by rotating together during the rotation of the rotary shaft 10 through the coupling portion 41 toward the suction port 35 in the impeller (3) The pressure screw 42 is to be installed. Coupling portion 41 is formed by extending the rotation shaft 10, or not shown, but the coupling portion 41 in a variety of configurations, such as screwed to the boss (B) of the rotary shaft 10 or impeller (3) Can be formed. In this way, by installing the pressure screw 42 in the suction port 35, in addition to the suction force generated by the impeller 3 during the rotation of the rotary shaft 10, the suction force also acts by the pressure screw 42, in particular concentrated slurry and The same highly viscous material to be transported can be easily inhaled. Accordingly, the operation of the impeller 3 to exert the centrifugal force can be made more smoothly, so that the pumped material such as the concentrated slurry can be pumped only by the concentrated slurry pump of the present invention in which the centrifugal pump is improved. The screw blade of the above-mentioned screw screw 42 may be installed as one or multiple, and the structure of the screw blade can be variously modified depending on the type and shape of the material to be conveyed.

B: center boss, 4: wing, 5: pressure part, 6: open part, 7: bottom plate, 41: coupling part, 42: pressure screw

Claims (7)

Suction to the suction port 35 is installed horizontally, the centrifugal force is generated by the plurality of curved blades of the impeller (3) installed on the rotating shaft 10 to rotate together for pumping through the discharge port (30) In the centrifugal pump,
The pressure portion 5 causes the pressure portion 5 to exert a force in the tangential direction of the circumference from the outer circumferential end of each wing 4 to the slurry pumped by the wing 4 to pump the concentrated slurry. Concentrated slurry pump, characterized in that installed in the part. The method of claim 1,
Concentrated slurry pump, characterized in that the pressure portion (5) is configured to be bent in the radial direction at the end portion of the curved wing (4). Suction to the suction port 35 is installed horizontally, the centrifugal force is generated by the plurality of curved blades of the impeller (3) installed on the rotating shaft 10 to rotate together for pumping through the discharge port (30) In the centrifugal pump,
A concentrated slurry pump, characterized in that an opening (6) is provided on the bottom plate (7) between the blade (4) and the blade (4) of the impeller (3). Suction to the suction port 35 is installed horizontally, the centrifugal force is generated by the plurality of curved blades of the impeller (3) installed on the rotating shaft 10 to rotate together for pumping through the discharge port (30) In the centrifugal pump,
The coupling part 41 is installed on the rotating shaft 10 from the impeller 3 toward the suction port 35, and a pressure screw 42 is further provided to further increase the suction force applied to the slurry from the suction port 35. 41) Concentrated slurry pump, characterized in that rotatably installed with the rotary shaft (10). Suction to the suction port 35 is installed horizontally, the centrifugal force is generated by the plurality of curved blades of the impeller (3) installed on the rotating shaft 10 to rotate together for pumping through the discharge port (30) In the centrifugal pump,
Guiding grooves on the inner surface portion 1a of the front casing 1 facing the vanes 4 of the impeller 3 to guide the movement of the slurry with pumping force by the vanes 4 of the impeller 3. A concentrated slurry pump, characterized in that (33) is provided.
The method of claim 5, wherein
An inner surface portion of the rear casing 2 which is provided with an opening 6 in the bottom plate 7 between the blade 4 and the blade 4 of the impeller 3 and at the same time passes through the opening 6. Concentrated slurry pump, characterized in that the guiding groove (33) is also provided in (2b).
The method according to claim 5 or 6,
The guiding groove 33 is formed by attaching the disk 31 provided with the guiding groove 33 on the surface portion to the inner surface portions 1a and 2b of the front casing 1 or the rear casing 2. Concentrated slurry dedicated pump, characterized in that.

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