KR200399868Y1 - pump - Google Patents

Abstract

The present invention relates to a pump with improved airtightness, the chamber is formed on the inside, the body and the inlet and discharge port formed on one side of the chamber; An impeller installed in the chamber; A side wall installed at one side of the chamber, the sealing portion penetrating the rotating shaft formed at a center thereof, and a lip installed at an inner circumferential surface of the sealing portion; A drive unit provided with a plurality of bearings; One side is connected to the drive motor and the other side is the impeller is installed, the outer peripheral surface is formed with a ceramic coating is formed through the drive shaft through the sealing portion of the side wall; the airtightness and durability can be improved.

Description

Air tight pump {pump}

The present invention relates to a pump with improved airtightness, and more particularly, to a pump with improved airtightness through a lip contacting a rotating shaft instead of removing a stuffing box of the pump, thereby enabling a compact structure and preventing leakage of fluid. will be.

As is well known, when the pump is classified in structure, it can be classified into a reciprocating pump, a rotary (rotary) pump, a centrifugal pump, an axial flow pump, a friction pump, and the like.

Among these, the centrifugal pump is most commonly used in the industrial field as a pump having a spiral passage on the outside of a rotating impeller.

The centrifugal pump flows through the impeller where the fluid entering the center rotates and flows outward and reaches the pump outlet through the spiral passage. Here, there are two types of centrifugal pumps: a turbine pump in which water exiting the impeller passes between the guide vanes and out to the sealing portion, and a volute pump having no guide vanes. The former is suitable for high lift.

In particular, when the head is large, a multistage equation is used in which the fluid exiting the guide vane of the first stage is led to the inlet of the second stage. It is most used among pumps used in drainage, water and sewage, mining, and chemical industry. It is suitable for distilled water, sewage water, pulp mixture, gravel, coal, etc. to improve the feather of the centrifugal pump and make it particularly resistant to abrasion and corrosion.

The centrifugal pump must maintain a high degree of airtightness between the internal chamber and the rotating shaft where the impeller is installed to ensure accurate fluid transfer without loss of fluid and pressure, thereby forming a cylindrical stuffing box on the side wall through which the rotating shaft penetrates, and within the stuffing box. Grease packings were inserted and wound around the rotating shaft to maintain hermeticity.

However, since grease packing is easily worn by the frictional force generated due to the characteristics of the rotating shaft rotating at high speed, the maintenance is short and the cost is large because of frequent replacement.

The present invention is devised to solve the above problems of the prior art, by mounting a lip to ground to the rotary shaft, and by applying a ceramic coating on the outer peripheral surface of the rotary shaft in contact with the lip can reduce the friction force, as well as improving airtightness, Since the lip is more durable than the conventional grease packing, its purpose is to provide a pump with reduced maintenance costs and improved airtightness.

The present invention to achieve the above object,

A main body having a chamber formed therein and an inlet and an outlet formed at one side of the chamber; An impeller installed in the chamber; A side wall installed at one side of the chamber, the sealing portion penetrating the rotating shaft formed at a center thereof, and a lip installed at an inner circumferential surface of the sealing portion; A drive unit provided with a plurality of bearings; One side is connected to the drive motor and the other side is the impeller is installed, the outer circumferential surface of the rotating shaft is installed through the driving portion and the sealing portion of the side wall while the ceramic coating is formed;

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

1 is a cross-sectional view showing a pump according to the present invention, Figure 2 is an exploded perspective view of FIG.

1 and 2, the pump (A) according to the present invention, the impeller 8 is coupled to the main body 100 is installed inside, one side of the main body 100 is coupled to the rotating shaft 6 and the bearing It consists of a drive unit 200 is provided with a plurality of bearings, and a drive motor (not shown) installed on one side of the drive unit 200 and connected to the rotary shaft (6).

A predetermined chamber 2 is partitioned by the side wall 9 in the main body 100, and an impeller 8 is installed in the chamber 2 while being mounted on the rotating shaft 6, and the rotating shaft 6 is provided. Is connected to a drive motor (not shown), the inlet port 22 is formed on one side of the chamber 2, the discharge port 24 is formed on the other side.

Therefore, the rotating shaft 6 is rotated by the driving of a driving motor (not shown), and the impeller 8 is rotated to generate suction force and earth output, and after the fluid is introduced through the inlet 22, the outlet 24 is opened. Is discharged through.

On the other hand, one side of the side wall (9) blocking the chamber (2) is formed with a check unit (4) communicating with the outside to visually identify whether the sealing portion 92 leaks.

That is, the rotary shaft 6 is formed with a cylindrical sealing portion 92 having an insertion hole 94 in the center of the side wall (9) so that it can be installed through the side wall (9).

In addition, in order to achieve airtightness of the chamber 2, a predetermined round chin is formed on the inner circumferential surface of the sealing portion 92, and a lip 5 is inserted into the round ledge 942 so that the outer circumferential surface of the rotating shaft 6 is formed. It is to be able to prevent the leakage of fluid by making contact with.

In addition, the outer circumferential surface of the rotary shaft 6 in contact with the lip 5 forms a ceramic coating 60 coated with ceramic, thereby improving the holding force with the lip 5 and reducing friction.

Referring to the combination and operation of the present invention configured as described above are as follows.

One end is connected to a driving motor (not shown) and coupled to the driving part 200, and the rotating shaft 6 is coupled by penetrating the sealing part 92 of the side wall 9, and from the other end of the rotating shaft 6. The lip 5 is secured by inserting the lip 5 into the annular projection 942 of the sealing portion 92.

Thereafter, the impeller 8 is coupled to the other end of the rotation shaft 6, and after the coupling of the main body 100, the pipe is connected to the inlet 22 and the discharge port 24 to complete the coupling of the subject innovation (A). .

Subsequently, when the driving motor (not shown) is driven, the rotary shaft 6 rotates in association with the driving motor, and the impeller 8 coupled to the one end rotates to generate suction force and toe output, thereby inducing the inlet 22. The fluid is sucked through and discharged through the discharge port 24 via the chamber 2.

When the rotary shaft 6 rotates, the lip 5 is in contact with the outer circumferential surface to be sealed, thereby preventing the fluid in the chamber 2 from leaking to the inspection unit 4, and the lip 5 is scratched. Since it is made of rubber or fluorine rubber, etc., it is not easily worn, and if broken, it can be used semi-permanently by replacing only the lip (5).

As described above, the improved airtightness pump according to the present invention can be maintained airtightness by the ground of the ceramic coating and the lip formed on the rotating shaft, the life of the lip can be extended to improve the durability and ease of maintenance Can be provided.

1 is a cross-sectional view showing a pump according to the present invention.

FIG. 2 is an exploded perspective view of FIG. 1. FIG.

Explanation of symbols on the main parts of the drawings

2 chamber 4 check unit

5: lip 6: axis of rotation

8: impeller 9: side wall

60: ceramic coating

Claims (2)

A main body having a chamber formed therein and an inlet and an outlet formed at one side of the chamber; An impeller installed in the chamber; A side wall installed at one side of the chamber, the sealing portion penetrating the rotating shaft formed at a center thereof, and a lip installed at an inner circumferential surface of the sealing portion; A drive unit provided with a plurality of bearings; One side is connected to the drive motor and the other side is the impeller is installed, the outer circumferential surface of the rotating shaft is installed through the sealing portion of the side wall passing through the drive unit with a ceramic coating; Improved airtightness pump, characterized in that consisting of. The method of claim 1, Improved airtightness pump, characterized in that the ring is inserted into the inner circumferential surface of the sealing portion insertion hole is inserted into the rotating shaft is inserted.