KR200163059Y1 - Cut-off unit of bi-suction vortex pump - Google Patents

Abstract

The present invention adopts the gland packing in the shaft device, and the liquid contained in the large amount of water leaked and leaked from the blessing device part of the large-capacity and high-pressure water suction vortex pump and the deflector's surrounding air to prevent leakage of the lubricating oil in the bearing part. It is a cutting device for preventing the fine particles from entering the inside of the bearing casing through the gap of the deflector, the center is formed with a hole having a diameter equal to the diameter of the main shaft, one side has a tapered diffraction surface On the other side, to form a turbo wing, the first water body consisting of an integral; And, a hole having a diameter having the same size as the diameter of the main shaft is formed in the center, one side has a tapered diffraction surface, the other side formed a turbo-type blade to form a second water body; And a first cutting body and a second cutting body are disposed between the bearing part and the shaft part so that the turbo blades face each other, and the turbo blades are formed so that their refracted directions are different from each other to suck air from the shaft part side. It is characterized in that the angle is moved toward the Ipeller, a double suction vortex pump to prevent the water scattered in the shaft device and the liquid fine particles contained in the air to enter the storage portion, and to lower the temperature of the storage portion Provides a cutting device for the bearing portion.

Description

Cutting device of double suction vortex pump bearing

1 is a schematic configuration diagram showing a method of cutting the conventional double suction vortex pump bearing part

2 is a detailed view of part "A" of FIG.

Figure 3 is a schematic block diagram showing a double suction vortex pump bearing having a cutting device according to the present invention

Figure 4 is a perspective view showing the water-reducing body which is the main part constituting the water-reducing device of the double suction vortex pump bearing unit according to the present invention (a) to (b)

5 is a detailed view of part "B" of FIG.

* Explanation of symbols for the main parts of the drawings

10, 10 ': water section 11, 11': hole

12, 12 ': diffractive surface 13, 13': wing

The present invention relates to a device for blocking water penetrating the bearing portion of a high-capacity, high-pressure double-suction vortex pump, and more specifically, in the gland packing of the shaft rod device installed at the portion of the pump spindle penetrating both ends of the casing Double-suction vortex pump bearings that prevent the splashing water from entering the bearing box through a gap in the deflector, which prevents lubricating oil from leaking out of the bearing box installed in the axial penetration through the bearing box at both ends of the pump. A negative cutting device.

A high pressure, high capacity, double suction vortex pump is generally shown in FIG. An impeller 120 is installed in the center of the shaft 110 supported at the bearing part of both ends of the pump casing, and one end of the shaft 110 is connected to the motor through a coupling, and the impeller 120 is formed by the action of the motor. ).

The shaft device is installed in the shaft through portion of the casing for accommodating the impeller 120 therein, and is a device for preventing leakage of water from the inside of the casing and air intrusion into the casing, which is the main shaft 110 pump casing Installing a water seal ring 210 with respect to the central portion of the portion through the installation, and two pairs of gland packing 220 on the inner side and the outer three pairs of the seal ring 210, respectively, and the grand 230 By fixing to the outer gland packing 220 side through the sleeve nut 240, the water seal in the shaft is performing the airtight action, cooling, and lubrication of the shaft, and a small amount of accumulation is required for the water. To this end, it is necessary to maintain an appropriate tightening state. If the sleeve nut 240 is tightened too little, excessive leakage occurs in the shaft part, and an accident of flooding into the shaft part occurs. Will is tightened too much, on the other hand will give you a brand packing 220 is disposed of other causes greater leakage accident.

The bearing part has a structure divided into upper and lower parts, and the lower axis number is attached to the casing to support the load acting on the main shaft 110 to smoothly rotate the main shaft, and the load in the rotation direction is the sleeve bearing 310. The bearing in the axial direction is the structure in charge of the angular contact ball bearing 320, the lubrication of the bearing is made by the rotation operation of the oil ring (330). The shaft through portion is provided with a deflector 340 to prevent leakage of lubricating oil and to prevent dust from entering from the outside.

On the other hand, prevention of water penetration into the bearing box prevents water from flowing into the bearing part by raising the distance between the bearing part and the bearing device so that the water flowing out of the bearing device falls to the lower side before reaching the bearing part. However, such state maintenance is possible when the tightening state of the top of the gland packing sleeve 220 and the sleeve nut 240 is extremely normal, that is, about one drop per second, and thus, the number of rods is more than a predetermined amount. When scattered to the outside, intrusion of water into the bearing part through the deflector gap is inevitable, and the bearings 310 and 320 melt and flow down.

In order to prevent this problem, conventionally, as shown in FIG. 2, a planar disk-shaped repair plate 410 is employed, which can prevent most of the water, but a portion of the water splashes off the repair plate 410. The water that is splashed toward the deflector and the water flowing down against the bearing casing flows into the gap between the deflector 340 and the casing through the deflector 340 and the receiving plate 410 to flow into the bearing casing.

The introduced water is precipitated in the lower part of the lubricating oil in the bearing casing, and when the upper surface of the oil reaches the lower end of the main shaft 110 by the continuously flowing water, the lubricating oil leaks to the outside through the gap of the deflector 340, and the bearing casing The interior is filled with water instead of lubricant.

In addition, the liquid fine particles (Mist) contained in the air between the deflector 340 and the water-receiving plate 410 had a problem of freely flowing into the bearing casing through the gap of the deflector 340 together with the air.

The present invention has been made to solve the above-mentioned conventional problems, and its purpose is to provide water between the water storage unit and the air storage device, which is scattered by the air storage device, and the liquid fine particles contained in the air inside the water storage unit. It is to provide a water closing device of the double suction vortex pump bearing portion to prevent the flow into the water, and to lower the temperature of the bearing portion.

As a technical configuration for achieving the above object, the present invention,

A large amount of water that leaks from the shaft part of the large-capacity, high-pressure water-suction vortex pump that adopts a gland packing device, and the liquid fine particles contained in the surrounding air of the deflector to prevent leakage of lubricant in the shaft part are included. In the cutting device for preventing the intrusion into the bearing casing through the gap of the deflector, a hole having a diameter equal to the diameter of the main shaft is formed in the center, one side has a tapered diffraction surface, the other side A first cutting body formed integrally by forming a turbo blade; And, a hole having a diameter having the same size as the diameter of the main shaft is formed in the center, one side has a tapered diffraction surface, the other side formed a turbo-type blade to form a second water body; And a first cutting body and a second cutting body are disposed between the bearing part and the shaft part so that the turbo blades face each other, and the turbo blades are formed so that their refracted directions are different from each other to suck air from the shaft part side. By providing the water-repellent device of the double suction vortex pump bearing portion, characterized in that each movement toward the mouth.

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

3 is a schematic configuration diagram showing a double suction vortex pump bearing part having a cutting device according to the present invention, and FIG. 4 is an external view showing a cutting body which is a main part constituting the cutting device of the double suction vortex pump bearing part according to the present invention. As a perspective view, the general configuration is the same as the conventional configuration, and reference numerals in the drawings for the components of the same parts will be given the same as the reference numerals cited in the prior art.

That is, the high-pressure, high-capacity double suction vortex pump has an impeller 120 installed at the center of the shaft 110 supported at the bearing portion of both ends of the pump casing, and one end of the shaft 110 is connected to the motor via a coupling. Connected to drive the impeller 120 by the action of the motor, the shaft device is installed in the shaft through portion of the casing housing the impeller 120 therein, leaks from the inside of the casing and into the casing A device for preventing air from invading, which is provided with a seal ring 210 for the central portion of the portion of the main shaft 110 penetrates the pump casing, and two pairs on the inside and outside the seal ring 210 Each of the three pairs of gland packings 220 is installed, and the gland 230 is fixed to the outer gland packing 220 side via a sleeve nut 240, and the bearing portion has a structure divided into upper and lower parts. Losing , To support the load acting on the main shaft 110 by attaching the lower shaft number to the casing to smooth the rotation of the main shaft, the load in the rotational direction is responsible for the sleeve bearing 310 and the axial load is the angular contact ball bearing ( As the structure in charge of 320, the lubrication of the bearing is made by the rotation operation of the oil ring (330).

The shaft through portion is provided with a deflector 340 to prevent leakage of lubricating oil and to prevent dust from entering from the outside.

The water-reducing body 1 of the present invention is installed between the water bearing portion and the shaft rod portion at the position where the conventional water-receiving plate 410 of the pump bearing part having such a rough configuration is installed, and replaces the water-receiving plate 410. 4 is an external perspective view showing the water-reducing body 1, which is a main part of which is equipped with the water-receiving device of the double-suction vortex pump bearing unit according to the present invention, in which a hole 11 having a diameter equal to the diameter of the main shaft is formed. It has a tapered diffractive surface 12 on one side, the turbo wing (13) is formed on the other side formed integrally with the first water-reducing body (10) and the diameter of the main shaft in the center A hole 11 'having a diameter the same as that of a hole is formed, and one side has a tapered diffractive surface 12, and the other side is formed integrally by forming a turbo type wing 13 It consists of the 2nd cutting body 10 'and.

In addition, the difference between the first and second cutting bodies 10 and 10 ′ is that the turbo blades 13 and 13 ′ face each other and are formed so as to have different directions.

That is, the wings 13 and 13 ′ between the first and second water harvesting bodies 10 and 10 ′ are installed to face each other, and the air is sucked from the axial rod side to move toward the Ipeller 120.

That is, the wings of the first water-reducing body 10 on the motor direct connection side are bent in the rotational direction, and the wings of the other second water-reducing body 10 'are bent in the opposite direction to the rotational direction. The cutting bodies 10 and 10 'are fitted to the main shaft 110 and assembled by the bolt nut 14, and are configured to be fixed to the main shaft 110 with the steel band 15 on both the diffractive surface and the wing surface.

According to the present invention having such a configuration, a large amount of water scattered from the shaft device hits the diffractive surfaces 11 and 11 'of the water cutting body 10, 10', and is diffracted to form the first water cutting body 10. And the cylindrical cover 140 installed to be spaced apart to the outside of the second water harvesting body 10 'by being separated from the lower bracket 130 and drained to the outlet, the deflector 340 of the water bearing part and the water cutting body 10 The liquid fine particles contained in the air, which are present between the air beams 10 'and 10', are attracted and discharged by the rotation of the wings 13 and 13 'of the water cutting bodies 10 and 10', so that the gap of the deflector 340 is obtained. By preventing the water infiltration into the bearing portion through the through, to prevent the emulsification of the lubricating oil to extend the life of the lubricating oil, it is possible to prevent the bearing 321, 331 due to poor lubrication burned and melted.

In addition, the air, which is hot at about 50 ° C. in the bearing casing, is discharged to the outside through the gap of the deflector 340 by the rotation of the blades of the water receiver, so that fresh air is supplied into the bearing casing through the air breather 350. The effect of cooling the bearing is also obtained by circulating and smoothing the air flow on the bearing casing side.

Claims (1)

A large amount of water that leaks from the shaft part of the large-capacity, high-pressure water-suction vortex pump that adopts a gland packing device, and the liquid fine particles contained in the surrounding air of the deflector to prevent leakage of lubricant in the shaft part are included. In the cutting device for preventing the intrusion into the bearing casing through the gap of the deflector, A hole 11 having a diameter equal to the diameter of the main shaft is formed in the center, and one side has a tapered diffractive surface 12, and the other side forms a turbo type wing 13. A first cut body (10) consisting of a single body; Wow, A hole 11 'having a diameter equal to the diameter of the main shaft is formed in the center, and one side has a tapered diffractive surface 12', and the other side has a turbo type wing 13 '. To form a second cut body (10 ') integrally formed; Including and The first cutting body 10 and the second cutting body 10 'are provided between the bearing portion and the shaft portion so that the turbo blades 13 and 13' face each other, and the turbo blades 13 and 13 'are provided. It is formed so that the refraction direction is different from each other, the suction device of the double suction vortex pump bearing portion, characterized in that the air is sucked from the axial rod side to move toward the mouthfellow 120, respectively.