KR20090063370A - The inner flow cut off system for bucket type strainer - Google Patents

Abstract

A bucket-shaped fluid shielding apparatus inside a strainer is provided to prevent oil leakage when the lubricating oil is blocked. A bucket-shaped fluid shielding apparatus inside a strainer comprises a sealing unit(311) which is inserted into the strainer filter unit and cuts off the path of the fluid, a settling unit(313) which is extended in the tight fit part and is settled in the combining surface of the strainer filter unit, a blinder(310) which is extended in the settling portion and includes a supporting part(315), an elastic member(320) which is inserted into the supporting part, and it is installed between the strainer upper cover plate and supports the blinder, and a gripper(330) which is joined in the upper surface of the supporting part.

Description

The Inner Flow Cut Off System for Bucket Type Strainer

The present invention relates to a bucket-type strainer internal fluid shutoff device. More specifically, it is possible to perform maintenance work by simply and safely cutting off the lubricant supplied to the bearings, and to prevent contamination of the surrounding environment, fire prevention and worker safety accidents. A fluid shutoff device in a bucket type strainer can be greatly reduced.

In general, power generation methods for converting other energy such as mechanical energy, thermal energy, and chemical energy into electrical energy are classified into hydroelectric power, thermal power, nuclear power, wind power, geothermal power, and solar power, depending on the power generation resources used.

Thermal power generation refers to the development of a method of converting thermal energy obtained by burning fossil fuels such as coal, oil, and gas into mechanical energy and converting it into electrical energy.

The thermal power generation system uses water generated by burning fuel to heat water to make steam, and then uses the steam to drive a steam turbine connected to the generator, and a power generator to drive a generator using an internal combustion engine such as a diesel engine. System and power generation system using a gas turbine as a prime mover.

The turbine facility of such a thermal power plant is a device that generates electricity by rotating a generator by converting thermal energy of a working medium into mechanical energy in a thermodynamic cycle using working steam or gas, and a steam turbine and a gas turbine are mainly used in a power plant.

A steam turbine is an engine that converts the thermal energy of high pressure steam into mechanical energy, and the principle of operation is to accelerate and expand the steam flow by blowing and expanding the high temperature and high pressure steam produced in a boiler at a nozzle or a fixed blade, Recoil causes the rotating vanes to rotate and ultimately convert the generated torque into electrical energy.

On the other hand, a gas turbine uses combustion gas instead of steam, which is similar to a steam turbine in its operation principle or structure.

Such steam turbines and gas turbines are useful in industries such as power generation facilities and power sources for large vessels.

1 is a perspective view showing a pipe for supplying lubricating oil to a bearing of a turbine installation of a power plant in the related art, and FIG. 2 is a cross sectional view showing a structure of a strainer of a conventional lubricating oil supply pipe.

As illustrated in FIG. 1, various turbine facilities are provided with a lubricating oil piping facility 100 to supply lubricating oil to a plurality of bearings and the like installed to prevent friction and abrasion at a moving part such as rotation.

The lubricating oil piping facility 100 is largely composed of a lubricating oil supply pipe 110, a flange 120 connecting them, and a strainer 140 provided with a filter 210 for filtering impurities mixed in the lubricating oil.

Lubricant piping facility 100 is necessary to temporarily shut off the lubricant supply to the turbine bearings as necessary, such as during turbine assembly process or commissioning conditions of the lubricating oil system during turbine maintenance work performed at regular intervals to maintain the turbine equipment of the power plant. Typically, the flange 120 of the lubricating oil supply pipe 110 is disassembled, and a circular thin thin plate-shaped blinder plate 130 is inserted therebetween, and then reassembled the flange 120 to block the lubricating oil supply. Done.

However, such a lubricant supply cutoff is complicated by disassembling the flanges of the lubricant supply pipe and inserting the blinder plate accurately and safely between these flanges. During the decomposition, a large amount of lubricant oil remaining in the pipe leaks, which contaminates the work area and causes many problems such as a fire and a safety accident.

In order to solve this problem, the present invention can perform maintenance work by simply and safely cutting off the lubricating oil supplied to the bearing, preventing pollution of the environment around the workplace, preventing fire and worker safety accidents, It is an object of the present invention to provide a fluid blocker in a bucket-type strainer that can greatly reduce the lubricant shut-off time.

In order to achieve the above object, the present invention provides a close contact portion inserted into a strainer filter unit to block a passage of a fluid, a seating portion extending from the close contact portion to a seating surface of the strainer filter portion, and extending from the seating portion. A blinder having a supporting portion; An elastic member inserted into and coupled to the support of the blinder and installed between the strainer upper cover plates to support the blinder by elastic force; And a grip part coupled to an upper surface of the support part to enable gripping for assembling or disassembling the blinder into the strainer.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in describing the present invention, if it is determined that the detailed description of the related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

3 is an assembly view showing a bucket-type strainer internal fluid shutoff device according to the present invention, Figure 4 is a cross-sectional view of the inside of the strainer is installed a bucket-type strainer internal fluid shutoff device according to the present invention.

3 and 4, the bucket-type strainer internal fluid shutoff device according to the present invention includes a cylindrical blinder 310 inserted into the strainer filter part 420 to block the flow of lubricating oil, and the blinder. An elastic member 320 for applying a load so as to press-fit the 310 to the inner circumferential surface of the strainer filter portion 420, and the gripper for assembly assembling when installing or disassembling the blinder 310 to the strainer filter portion 420 It comprises a grip portion 330 to enable.

In addition, a plurality of O-rings 325 inserted into the blinder 310 may be further provided between the blinder 310 and the strainer filter part 420 contact surface when the lubricant is blocked so that oil does not leak.

The blinder 310 is a device for blocking the flow path of the fluid in the strainer, and has a form in which three disks having different diameters in a generally cylindrical shape are combined. The blind part 310 and the seating part 313 and the support part are large. It consists of 315.

The close contact portion 311 is inserted into the strainer filter portion 420 in which a filter for filtering foreign substances from the lubricating oil supply pipe is installed to block the flow of the lubricating oil, and the cross-sectional shape of the strainer filter portion 420 It is the same as the cross-sectional shape.

That is, the cross-sectional view of the close contact portion 311 is formed in the same circular shape so as to be inserted into the strainer filter portion 420 having a pipe shape having a circular cross-sectional shape so as to be in close contact with the inner surface of the strainer filter portion 420.

An upper portion of the close contact portion 311 is provided with a seating portion 313 which is formed to extend and extend from the close contact portion 311. The seating portion 313 may be formed of the strainer filter portion 420 as shown in FIG. 4. It is to be seated on the coupling surface 410 is enlarged on the upper side serves as a locking jaw to prevent the blinder 310 is pushed further into the strainer filter portion 420.

In addition, an O-ring 325 serving as an oil seal is inserted into a portion where the close contact portion 311 and the seating portion 313 abut, so that the close contact portion 311 is inserted into the strainer filter portion 420. 311) and the strainer filter 420 serves to seal the lubricant so as not to leak.

On the other hand, the upper portion of the seating portion 313 is provided with a support portion 315 which is formed to extend and shrink from the seating portion 313.

The support part 315 is a site where the elastic member 320 is inserted and the elastic member 320 is compressed between the upper cover plate 440 and the elastic force acts. When installed, the grip part 330 is provided for convenience and assembly of the operator.

The elastic member 320 may be a coil spring having an inner diameter similar to the diameter of the supporting portion 315 so that the elastic member 320 may be inserted and coupled to the supporting portion 315, but is not necessarily limited thereto. In some cases, the inner diameter may include the supporting portion 315. A hollow cylindrical elastic member 320 similar to the diameter of may be used.

The grip part 330 serves as a handle for convenience when press-fitting the blinder 310 into the strainer filter part 420. The grip part 330 is formed in a rod-shaped gripper and is supported on the support part 315 of the blinder 310. Are combined.

The support part 315 and the grip part 330 form a fastening groove 317 having a groove shape having a thread and a valley on the upper side of the support part 315, and the screw part 331 engaged with the grip part 330 by the grip part 330. They are formed and screwed together, but in some cases, joining by other methods, such as welding or press fitting, is also possible.

Brief description of the assembly and operation principle of the fluid strainer in the bucket-type strainer according to the present invention.

First, the adhesive part 311 of the blinder 310 is inserted into the strainer filter part 420 to prevent the flow of lubricating oil, and the elastic member 320 is coupled to the support part 315 formed on the upper side of the blinder 310. When the strainer upper cover plate 440 is fastened to the strainer 140, the elastic member 320 installed between the strainer upper cover plate 440 and the blinder 310 exerts an elastic force on the blinder 310. 310 is tightly fixed to the strainer filter unit 420 is to block the flow of lubricating oil.

However, in the drawings and detailed description of the present invention, the cross section of the contact portion 311 of the blinder 310 is illustrated and described as being circular, but it is not necessarily limited thereto. In some cases, that is, according to the shape of the strainer pipe, that is, the strainer pipe If the cross-sectional shape of the square is not circular or polygonal or more polygonal or elliptical shape, the contact portion of the blinder cross-sectional shape may be the same cross-sectional shape to be in close contact with the strainer pipe.

According to the present invention having such a structure and shape, it is possible to simply and safely block the lubricating oil supplied to the bearing to prevent leakage, and to prevent contamination of the environment around the workplace, prevention of fire and worker safety accidents. And, there is an effect that can greatly reduce the lubricant blocking work time.

The above description is merely illustrative of the present invention, and those skilled in the art will appreciate that various modifications and variations can be made without departing from the essential features of the present invention. Accordingly, the embodiments disclosed herein are not intended to limit the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the same scope should be interpreted as being included in the scope of the present invention.

1 is a perspective view showing a pipe for supplying lubricating oil to a bearing of a turbine facility of a conventional power plant;

2 is a cross-sectional view showing a structure of a strainer of a conventional lubricating oil supply pipe;

Figure 3 is an assembly view showing a fluid block device in the bucket-type strainer according to the present invention.

Figure 4 is a cross-sectional view of the inside of the strainer is installed bucket-type strainer internal fluid blocking device according to the present invention.

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

110: lubricant supply pipe 120: flange

130: blind plate 140: strainer

210: filter 310: blinder

311: close contact 313: seating

315: support 320: elastic member

325: O-ring 330: grip

331: screw portion 333: knob

410: coupling surface 420: strainer filter portion

430: fastening member 440: strainer upper cover plate

Claims (6)

A blinder having a contact part inserted into the strainer filter part to block a passage of the fluid, a seating part extending in diameter from the contact part and seated on the coupling face of the strainer filter part, and a support part formed by extending and contracting at the seating part; An elastic member inserted into and coupled to the support of the blinder and installed between the strainer upper cover plates to support the blinder by elastic force; And A grip part coupled to an upper surface of the support part to enable gripping to assemble or disassemble the blinder in the strainer; Bucket-type strainer internal fluid shutoff, characterized in that comprises a. The method of claim 1, And a plurality of O-rings inserted into the circumferential surface between the contact portion and the seating portion of the blinder to prevent the leakage of fluid at the contact surface with the strainer pipe. The method of claim 1, The upper side of the support portion of the blinder is formed with a fastening groove formed with a screw thread and a valley in the center, the grip portion is a bucket-type strainer internal fluid blocking device, characterized in that it is provided with a screw portion engaged with the fastening groove. The method of claim 3, wherein The upper end of the grip portion is a bucket-type strainer internal fluid blocking device, characterized in that the rotary knob of the rod shape is provided so as to be rotated when the grip is screwed into the fastening groove of the blind. The method of claim 1, And the elastic member is a coil spring press-fitted to the support of the blinder. The method of claim 1, The elastic member is a bucket-type strainer internal fluid blocking device, characterized in that the hollow cylindrical elastic member is pressed into the support portion of the blinder.

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