KR200495588Y1 - Locking device for pump shaft - Google Patents

Abstract

A pump shaft locking device is disclosed. The pump shaft locking device according to an embodiment of the present invention is formed in the form of a hollow cylinder through which the shaft is inserted, one side is coupled to the pump and the other side is a base in which a first flange portion is formed; One side of the second flange portion is formed and bolted to one side of the base, the shaft is inserted through the hollow cylindrical shape is formed, the other side is a head having an open portion; a disk-shaped cover that is bolted to the head and closes the opening of the head so that moisture does not flow into the shaft; and a plurality of handle rods inserted into the base and the head, respectively, and installed radially at a predetermined interval on the outer peripheral surfaces of the base and the head.

Description

Pump shaft locking device {LOCKING DEVICE FOR PUMP SHAFT}

The present invention relates to a pump shaft locking device, and more particularly, to a pump shaft locking device that prevents moisture from entering the shaft and enables precise work during alignment.

In general, a high-pressure LNG pump is a device that boosts the pressure of low-pressure LNG transferred from an LNG tank to a high pressure, and is classified into an external motor type pump and a submersible pump according to the type of motor.

Among them, the external motor type pump is a type in which the motor is exposed to the outside, and the external motor type high pressure LNG pump manufactured by SULZER is widely used.

The high-pressure LNG pump used in natural gas production bases is used to boost the pressure of liquefied natural gas (LNG), which is in an ultra-low temperature state of -162℃, so it is made of a material suitable for low temperature.

Mechanical seal is a surface contact sealing device, and prevents fluid leakage by closely contacting the rotor rotating together with the shaft and the stator fixed to the housing.

One end of the rotor is movably installed in the longitudinal direction of the shaft so that the contact surface of the rotor and the stator, that is, the seal surface, is always in close contact even when friction occurs, and the elastic member elastically presses it from the rear thereof.

However, during mechanical seal maintenance, the existing shaft locking device is not completely airtight, so gas leaks to the outside, and moisture penetrates into the pump and is rapidly cooled at very low temperature (about -160 ℃), and the moisture freezes and sticks to the pump.

In this case, if the pump is forcibly operated, there is a risk of damage to the pump parts due to the frozen water.

Republic of Korea Patent Registration No. 10-1370773 (2014.03.06. Announcement)

Therefore, the technical problem to be solved by the present invention is to provide a pump shaft locking device that prevents internal airtightness and moisture from infiltrating from the outside during maintenance of a high-pressure pump mechanical seal, and provides a reference plane for accurate alignment work. .

According to one aspect of the present invention, the shaft is formed in the form of a hollow cylinder through which one side is coupled to the pump and the other side is a base formed with a first flange portion; a head having a second flange portion formed on one side and bolted to one side of the base, a hollow cylindrical shape through which a shaft is inserted, and an open portion formed on the other side; a disk-shaped cover that is bolted to the head and closes the opening of the head so that moisture does not flow into the shaft; And a pump shaft locking device including a plurality of handle rods inserted into the base and the head, respectively, inserted and installed, radially installed at a predetermined interval on the outer circumferential surfaces of the base and the head, may be provided.

A groove may be formed along a circumferential surface of the cover, and one or more head O-rings may be coupled to an outer circumferential surface of one side of the head, and a gasket may be bolted to one end to seal the cover.

One or more grooves are formed along the circumferential surface of the base and the inside of the head to engage the O-ring, and a stepped jaw is formed on one side of the flange of the base to prevent moisture from entering when combined with the head, the base And the flange portion to which the head is coupled may be marked with scales at regular intervals to help the coupling.

Embodiments of the present invention may provide a pump shaft locking device that prevents the penetration of airtightness and moisture from the outside during maintenance of the high-pressure pump mechanical seal, and provides a reference surface for accurate alignment.

1 is a cross-sectional view of a pump shaft locking device according to an embodiment of the present invention.
2 is an exploded perspective view of a pump shaft locking device according to an embodiment of the present invention.
3 is a photograph showing the actual use of the pump shaft locking device according to an embodiment of the present invention.

In order to fully understand the present invention, the operational advantages of the present invention, and the object achieved by the practice of the present invention, reference should be made to the accompanying drawings illustrating preferred embodiments of the present invention and the contents described in the accompanying drawings.

Hereinafter, the present invention will be described in detail by describing preferred embodiments of the present invention with reference to the accompanying drawings. Like reference numerals in each figure indicate like elements.

1 is a cross-sectional view of a pump shaft locking device according to an embodiment of the present invention, Figure 2 is an exploded perspective view of the pump shaft locking device according to an embodiment of the present invention, Figure 3 is according to an embodiment of the present invention This is a picture showing the actual use of the pump shaft locking device.

Referring to FIG. 1 , the pump shaft locking device 10 according to an embodiment of the present invention includes a base 100 , a head 300 , a cover 500 , and a handle rod 700 .

First, the base 100 is formed in the form of a hollow cylinder through which the shaft 30 is inserted, one side is combined with the pump and the other side is formed with a first flange part 110, and when locking the pump shaft, the base ( 100) is pushed into the shaft 30 and combined with the pump.

In general, a pipe joint is used for a pipe with a large diameter, a pipe with high internal pressure, or a pipe that needs to be removed frequently. hole is installed. Flanges are made of cast iron, cast steel, forged steel, steel plate, bronze, brass, etc. The attachment type is attached to the pipe by twisting the flange, riveting, voltage, welding, or fusion. In general, the connection surface of the flange is machined, and bonding is done by inserting a sealing material such as packing.

In the pumps installed in power generation facilities and various industrial facilities, rotating structures such as several stages of impellers and balancing drums are inserted into one pump shaft 30 and installed.

Since the pump has to rotate at high speed and form high pressure, it is necessary to maintain a stable fixed state so that the shaft shaft and the rotating structure do not relax each other. may be

Next, the head 300 has a second flange portion 310 formed on one side and bolted to one side of the base 100, and is formed in a hollow cylindrical shape through which the shaft 30 is inserted and the other side is An opening 330 is formed.

In the conventional shaft locking device, since the opening 330 is completely open, there is a risk that gas leaks to the outside, and moisture penetrates into the pump.

One or more grooves are formed along the circumferential surface of the base 100 and the inside of the head 300 so that the O-ring is coupled, and a stepped jaw 150 is formed on one flange portion of the base 100 to form the head 300 and Moisture ingress is prevented during bonding.

In general, O-rings are formed by pushing an elastic material ring with a circular cross section into the groove of the sealing part, and when pressure is applied, it deforms and blocks the gap.

In the existing shaft fixing work, some companies have difficult precision work because there is a gap for each facility when combining the motor hub coupling and the pump hub coupling. There was a risk of damage due to displacement of water or concentration of load on a specific part of the assembly.

Therefore, if the scale is displayed at regular intervals on the flange portion where the base 100 and the head 300 are coupled to help the coupling, the workers can quickly and reliably perform the work, and a more precise work can be performed.

Meanwhile, the cover 500 may be bolted to the head 300 and configured in a disk shape to close the opening 330 of the head 300 so that moisture does not flow into the shaft 30 .

A groove is formed on the inner side of the cover 500 along a circumferential surface, and one or more head 300 O-rings are coupled to one outer circumferential surface of the head 300, and a gasket 370 is bolted to one end to be sealed. . As the gasket 370 , a gasket 370 made of a non-asbestos material may be applied for environmental problems and worker health.

That is, when the embodiment according to the present invention is applied, when the cover 500 is coupled during maintenance of the mechanical seal, airtightness inside is maintained and moisture from the outside does not penetrate.

The gasket 370 is a thin piece used to maintain the airtightness of the connection surface, such as a pipe flange joint, and is used for packing of the stopper in the packing. Paper, synthetic resin, hemp, rubber, asbestos, leather, etc. are used for low temperature and low pressure, and copper and lead mild steel are used for high temperature and low pressure.

On the other hand, the base 100 and the head 300 are inserted and installed, respectively, the base 100 and the head 300 may include a plurality of handle rods 700 installed in a radial form at regular intervals on the outer peripheral surface. have.

A plurality of handle rods 700 may be installed in a radial form on the outer peripheral surfaces of the base 100 and the head 300 to help adjust the weight when performing maintenance work with the pump shaft locking device 10 .

The existing shaft locking device was made of Carbon Steel and weighed 35Kg, but the pump shaft locking device 10 according to the embodiment of the present invention may be improved in weight to 15Kg by using an aluminum material (AL6061).

If the weight is improved in this way, the risk of workers due to the fall of the workpiece may be slightly improved, and it may be possible to work more quickly.

In addition, if the pump shaft locking device 10 according to an embodiment of the present invention is used, there is an advantage in that it is possible to minimize damage to parts such as sleeve and bowl bushing by fixing the shaft during pump transfer.

2, the base 100 is pushed into the shaft 30 and combined with the pump when the pump shaft locking device 10 is operated, and the head 300 is pushed into the shaft 30 and the base 100 and fasten with bolts. Then, the cover 500 is installed on the upper part of the head 300 to prevent moisture from entering the pump side, and an O-ring is installed inside the device.

3 is an actual use of the pump shaft locking device 10 according to an embodiment of the present invention, and workers can work by increasing the precision of the operation in a safe situation.

As such, the present invention is not limited to the described embodiments, and 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. Accordingly, it should be said that such modifications or variations are included in the claims of the present invention.

100: base 300: head
500: cover 700: handle rod
10: pump shaft locking device 30: shaft

Claims (3)

The shaft 30 is formed in the form of a hollow cylinder through which one side is coupled to the pump and the other side is a base 100 in which the first flange part 110 is formed;
A second flange part 310 is formed on one side, and is bolted to one side of the base 100, and is formed in a hollow cylindrical shape through which the shaft 30 is inserted, and an open part 330 is formed on the other side. head 300;
a disk-shaped cover 500 that is bolted to the head 300 and closes the opening of the head 300 so that moisture does not flow into the shaft 30; and
A plurality of handle rods 700 that are respectively inserted and installed into the base 100 and the head 300 and installed radially at a predetermined interval on the outer peripheral surfaces of the base 100 and the head 300 are included. do,
A groove is formed on the inner side of the cover 500 along the circumferential surface,
One or more head O-rings 350 are coupled to one outer circumferential surface of the head 300, and a gasket 370 is bolted to one end of the head to seal the pump shaft locking device (10).
delete The method of claim 1,
One or more grooves are formed along the circumferential surface of the base 100 and the inside of the head 300 to combine the O-rings,
A stepped jaw 150 is formed on one side of the flange portion of the base 100 to prevent water ingress when combined with the head 300,
A pump shaft locking device (10) that helps the coupling by marking scales at regular intervals on the flange portion where the base (100) and the head (300) are coupled to each other.

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