KR20070025674A - A centrifugal chemical pump - Google Patents

Abstract

A centrifugal chemical pump is provided to stably transport fluid by increasing chemical resistance of an impeller to use the pump for a long time. A centrifugal chemical pump includes a casing(10), an impeller, a thrust ring, a support plate ring, a magnetic coupling, and a bracket. The casing has an inlet port and a discharge port. The impeller includes a main brushing, and a magnet. The main brushing is tubular-shaped with a groove on the inner surface thereof in an axial direction. The magnet has a shaft inserted into the main brushing. The thrust ring supports a tip of the shaft in a thrust direction. The support plate ring supports a periphery of a rear casing, into which a rear end of the impeller is inserted. The magnetic coupling is axially engaged with a drive shaft of a motor to receive a drive force. The bracket covers a rear surface of the casing.

Description

A centrifugal chemical pump

1 is a perspective view showing a self-driven centrifugal chemical pump according to the present invention,

2 is a cross-sectional view showing a self-driven centrifugal chemical pump according to the present invention;

3 is an exploded perspective view showing a self-driven centrifugal chemical pump according to the present invention;

Figure 4 is a cross-sectional view showing the main part configuration in the self-driven centrifugal chemical pump according to the present invention,

5 is a view showing one side of the impeller in the self-driven centrifugal chemical pump according to the present invention,

6 is a cross-sectional view showing an impeller in a self-driven centrifugal chemical pump according to the present invention.

<Explanation of symbols for the main parts of the drawings>

1: pump 10: casing

11 inlet 12 outlet

15: bracket 20: main brushing

21 groove 25: shaft

28: thrust ring 30: impeller

31: centrifugal portion 32: magnetic linkage

31a: blade 40: rear casing

45: support plate ring 50: magnetic coupling

The present invention relates to a self-driven centrifugal chemical pump in which the impeller is rotated and pumped by a magnetic force under the driving force of the motor, and more particularly, increases the chemical resistance of the impeller when pumping various chemical fluids to ensure stable performance. It relates to a magnetically driven centrifugal chemical pump that can extend the life of the instrument while.

In general, a self-driven centrifugal pump is a type of centrifugal pump widely used to transfer a fluid in a low position to a high position.

Such a self-driven centrifugal chemical pump has a casing formed with a suction port and a discharge port through which fluid flows in and out, and an impeller having a blade through which the fluid passes is accommodated in the casing. In addition, a pressure difference is generated in the casing by the rotation of the impeller, and the fluid is introduced into the casing through the inlet of the casing. The centrifugal force is applied to the fluid to be discharged to the outside through the discharge port of the casing to transfer the fluid to a desired position. Has

On the other hand, the self-driven centrifugal pump is to transport a variety of fluids, in particular when transporting a chemical fluid high chemical resistance is required.

Here, in the conventional self-driven centrifugal chemical pump, the impeller is molded by insert injection using a magnet as an insert therein, wherein the insert is supported on one side by a support piece of the length member, and thus is inserted into the cavity inside the mold. In this state, the molten resin is filled into the cavity to cover the insert, and after a predetermined time, the molding of the impeller is completed by solidifying the resin injected into the cavity.

At this time, the impeller is an unmolded portion due to the support piece for supporting the insert, this unmolded portion is shielded through a separate post-processing operation.

However, in the conventional self-driven centrifugal chemical pump as described above, when the impeller is exposed to chemical fluids for a long time, the liquid penetrates through the processed parts due to the support pieces, resulting in corrosion of the insert and the molding, thereby improving the performance of the device. It not only lowered the pressure, but also caused the problem of greatly reducing the reliability of the product such as overloading the pump.

The present invention has been made to solve the above problems, an object of the present invention is to provide a self-driving centrifugal chemical pump that can increase the chemical resistance of the impeller and to allow stable fluid transfer and extend the life of the device.

Self-driven centrifugal chemical pump according to an embodiment of the present invention for realizing the above object, the casing is formed with the inlet and outlet; An impeller having a magnet by insert injection in which a shaft fitted to the main brushing and a tubular main brushing in which the groove is formed in the circumferential direction are axially fitted; A thrust ring for supporting the distal end portion of the shaft in a thrust direction; A rear casing into which the rear end of the impeller is inserted and a support plate ring supporting the periphery thereof while the rear end of the rear casing is inserted; A magnetic coupling axially coupled to one side thereof to receive a driving force, and having a tubular shape in which one side of the impeller is inserted and received to interact with the magnetic coupling; It characterized in that it comprises a bracket for covering the back of the casing.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are consistent with the technical spirit of the present invention based on the principle that the inventor can appropriately define the concept of the term in order to explain the invention in the best way. It must be interpreted as meaning and concept.

Hereinafter, a preferred embodiment of a self-driven centrifugal chemical pump according to the present invention with reference to the accompanying drawings.

1 is a perspective view showing a self-driven centrifugal chemical pump according to the present invention, Figure 2 is a cross-sectional view showing a self-driven centrifugal chemical pump according to the present invention, Figure 3 shows a self-driven centrifugal chemical pump in the present invention Exploded perspective view.

And, Figure 4 is a cross-sectional view showing the main structure of the self-driven centrifugal chemical pump according to the present invention, Figure 5 is a view showing one side of the impeller in the self-driven centrifugal chemical pump according to the present invention, Figure 6 Sectional drawing showing the impeller in the self-driven centrifugal chemical pump according to the invention.

As shown in the figure, the self-driven centrifugal chemical pump according to the present invention has a casing 10 and a bracket 15 by forming a large external body, and the casing 10 and the bracket 15 are mutually coupled to each other. The space formed therein includes an impeller 30, a rear casing 40, a support plate ring 45, and a magnetic coupling 50.

The casing 10 has an inlet 11 for suctioning a fluid on one side thereof, and a discharge hole 12 for discharging the sucked fluid by varying the height of the inlet 11 with the other side of the casing 10.

The casing 10 has a space in which a component for transporting a fluid can be installed, and a rear side of the casing 10 is provided in an open form to be covered by the bracket 15.

Here, the bracket 15 is coupled to the mounting plate 17 as a connecting member for connecting to the motor (m) on the rear side, and penetrates so that the shaft of the motor (m) can be inserted into the inside of the bracket (15) Holes (unsigned) are formed.

The casing 10 and the bracket 15 configured as described above have various shapes in consideration of the output (lift) of the pump if the inlet 11 and the outlet 12 are provided while providing a space in which various components can be housed. May be modified.

The impeller 30 is formed by insert injection using the magnet 35 as an insert therein and rotates by interacting with the magnetic coupling 50 to be described later to rotate the fluid introduced through the inlet 11 by centrifugal force. The discharge port 12 is discharged.

Looking at the configuration of such an impeller 30 with reference to the drawings is provided with a disc-shaped centrifugal portion 31 having a blade 31a formed on the front side, the rear of the centrifugal portion 31, the magnet 35 therein The cylindrical magnetic linkage portion 32 is formed integrally. In this case, the centrifugal portion 31 is disposed in a straight line with the above-described inlet 11 to form a flow path through which the fluid flows, and a blade 31a is formed so that the fluid introduced through the flow path can be transferred in the radial direction. .

On the other hand, the impeller 30 has a shaft 25 having the main brushing 20 in the front side is pinched and the front end of the shaft 25 is supported on the casing 10 through the thrust ring 28 As a result, the impeller 30 can be rotated.

Here, the main brush 20 is a tubular member for supporting the shaft 25, the groove 21 is formed in the axial direction on the inner peripheral surface. These grooves 21 allow for sufficient lubrication and cooling upon friction with the shaft 25.

On the other hand, when the insert molding method of the impeller 30 is briefly described, the support piece (not shown) supporting the insert is retracted by the injection pressure filled in the cavity (not shown) of the mold, and as a result, the support piece To prevent unmolding by Unlike the conventional impeller 30 provided as described above, it is not necessary to separately process the unmolded part after the injection of the insert, and can prevent a phenomenon that the liquid penetrates through the unmolded part.

When the impeller 30 configured as described above is accommodated in the magnetic coupling unit 50, which will be described later, the magnetic coupling unit 50, when the magnetic coupling 50 rotates under the driving force of the motor m, As a result, the centrifugal force is generated by the blade 31a while the centrifugal part 31 rotates rapidly, thereby increasing and discharging the fluid introduced through the inlet 11 toward the outlet 12.

The rear casing 40 is provided in a form in which the rear end portion of the impeller 30 described above, that is, the magnetic linkage portion 32 having a cylindrical shape is inserted, and the rear casing 40 is rearward of the rear casing 40. A rear end portion of the support plate ring 45 is provided to support the periphery thereof.

Here, the rear casing 40 is provided in the form of a cup with an edge extended to accommodate the magnetic linkage portion 32 of the impeller 30, the support plate ring 45 is provided in the form of a disc and the center A support plate ring 45 having a through hole (unsigned) is provided to insert the rear end of the rear casing 40.

The rear casing 40 is provided in close contact with the end of the casing 10 opposite one side of the rim surface thereof, and the support plate ring 45 is provided in close contact with the rear edge of the rear casing 40. Structure.

The rear casing 40 and the support plate ring 45 configured as described above are for preventing the fluid flowing from the front side, that is, the impeller 30 from entering the rear side, and a sealing member for sealing is appropriate. To be combined.

The magnetic coupling 50 is a member that is axially coupled to a rotating drive shaft (ms) by a power supply and is rotated by receiving a driving force. The magnetic coupling 50 interacts with the magnetic interlocking part 32 of the impeller 30 as described above. 30).

The magnetic coupling 50 is a kind of magnet provided to have a substantially tubular shape and has a structure in which a shaft hole is formed so that the driving shaft (ms) of the motor (m) can be axially fitted to one side thereof, and has a predetermined gap on the inner circumferential surface thereof. The rear end of the rear casing 40 covering the magnetic linkage part 32 of the impeller 30 is provided.

The magnetic coupling 50 configured as described above rotates integrally by rotation of the drive shaft ms of the motor m, and interacts with the magnetic linkage part 32 of the impeller 30 located on the inner circumferential surface thereof. To work together.

On the other hand, reference numeral 45 is an O-ring provided for sealing the rear casing 40 and the casing 10.

Referring to the operation of the self-driven centrifugal chemical pump according to the present invention configured as described above are as follows.

When the drive shaft (ms) of the motor (m) rotates so that the magnetic coupling 50 is rotated in one direction, the impeller 30 is rotated in the same direction in conjunction with this. Therefore, the low-pressure flow fluid introduced into the inlet 11 of the casing 10 is centrifugal force acted by the blade 31a of the impeller 30 rotating at a high speed, and the pressure is increased to high pressure. 12) is discharged to the side.

At this time, since the shaft 25 supporting the impeller 30 is smoothly lubricated and cooled by the groove 21 formed on the inner circumferential surface of the main brushing 20, the high speed rotation of the impeller 30 is ensured. .

On the other hand, the present invention is not limited to the described embodiments, it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention.

Therefore, such modifications or variations will have to belong to the claims of the present invention.

The self-driven centrifugal chemical pump constructed and operated as described above significantly reduces the thrust generated on the shaft by forming grooves on the inner circumferential surface of the main brush for supporting the shaft, thereby extending the life of the impeller disposed on the shaft. . In addition, in forming the impeller, since it is provided in the form without the unformed part by the supporting piece, it prevents the deformation and breakage of the impeller due to the liquid infiltration, so that it is possible to improve the reliability of the product while ensuring stable pumping performance. It has a useful effect.

Claims (1)

A casing formed with an inlet and an outlet; An impeller having a magnet by insert injection in which a shaft fitted to the main brushing and a tubular main brushing with a groove-like groove are formed on the inner circumferential surface thereof; A thrust ring for supporting the distal end portion of the shaft in a thrust direction; A rear casing into which the rear end of the impeller is inserted and a support plate ring supporting the periphery thereof while the rear end of the rear casing is inserted; A magnetic coupling axially coupled to one side thereof to receive a driving force, and having a tubular shape in which one side of the impeller is inserted and received to interact with the magnetic coupling; A bracket covering a rear surface of the casing; Self-driven centrifugal chemical pump comprising a.

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