KR20200058166A - Automatic lubrication device for mid standard of turbine - Google Patents

Abstract

According to the present invention, an automatic lubrication device for a mid standard of a steam turbine has a structure in which, when a mid standard (30) is guided by a support means (40) to move in an axial direction to absorb thermal expansion of a steam turbine casing (10) during an operation of the steam turbine casing (10), a grease injection switch (50) is lifted and lowered by friction caused by the distance difference between a stepped surface (42a) of a support block (42) on the support means (40) side and a rail surface (32) of the mid standard (30) and controls a spray amount to automatically spray grease in a grease box (44) to the rail surface (32) through a grease supply hole (46a) of a copper plate (46). Therefore, the support block (42) and the mid standard (30) are prevented from being fixed by friction to prevent a temperature increase by local heating of a thrust bearing.

Description

Steam turbine mid-standard automatic lubrication system {AUTOMATIC LUBRICATION DEVICE FOR MID STANDARD OF TURBINE}

The present invention relates to a steam turbine mid-standard auto-lubricating device, and more particularly, to provide a lubricating (grease) to the friction surface of the mid-standard (Mid Standard) automatically prevents the mid-standard from sticking to the steam turbine mid It relates to a standard automatic lubrication device.

In general, the high and medium pressure steam turbine casing 10 has a structure that is mounted on the front standard 20 and the mid standard 30 as shown in FIG. 1, and the temperature of the steam turbine casing 10 during normal operation is 500. As the temperature increases above ℃, the thermal expansion is performed. At this time, the front standard 20 and the mid standard 30 installed on the concrete structure 1 move freely in the axial direction, thereby absorbing the expansion of the steam turbine casing 10.

 In the case of an old steam turbine whose operation time has long elapsed, when the steam turbine casing 10 thermally expands while starting, a problem occurs that the mid-standard 30 or the front standard 20 is fixed. In particular, when a thrust bearing (not shown) is installed in the mid-standard 30, when the mid-standard 30 is fixed, an uneven expansion of the mid-standard 30 occurs and the temperature of the thrust bearing rises above a warning value. Occurs.

That is, problems such as stoppage of power generation due to temperature rise of the thrust bearing occur because the mid-standard 30 does not thermally expand smoothly, and the cause is also caused by a sliding failure due to lack of lubrication.

When the mid-standard 30 is fixed, the thermal expansion is not free, so that the front of the mid-standard 30 is lifted or the rear is lifted, and in this case, the temperature difference between the thrust bearing is generated and the thrust is caused by local contact. A bearing temperature alarm is generated.

When the thrust bearing temperature rises and the emergency disassembly and maintenance is performed, maintenance work including cooling of the steam turbine casing 10 takes more than 7 days. Is generated.

So, in the proposed conventional Patent Publication No. 10-0533207 (Nov. 28, 2005) for a bearing lubrication system for a machine and a method for reconfiguration thereof, the lubrication system includes an oil tank and an oil supply pipe supplying lubricant from the oil tank to the bearing, It is provided with a discharge pipe that guides the lubricating oil almost vertically from the bearing so that a discharge pipe oil level is formed in the discharge pipe, and an oil recovery capillary for guiding lubricant from the discharge pipe to the tank, wherein the oil recovery capillary is adjacent to the substantially horizontal portion and the tank. It consists of a structure that maintains almost all parts of the substantially horizontal part filled with lubricant by providing an arranged weir or flow resistance part.

That is, by providing a weir or a flow resistance part adjacent to the oil tank, a structure in which almost all parts of the substantially horizontal part is filled with lubricant, but this structure has a processing gap that allows the chamber and the grease collected in the chamber to flow to the mid-standard. Since there was no copper plate structure formed, the above problems could not be solved.

Republic of Korea Patent Registration No. 10-0533207 (2005.11.28) lubrication system for bearings of a machine and a method for reconfiguration thereof

The object of the present invention is proposed to solve the problems in consideration of the existing problems, and when the mid-standard moving in the axial direction with the guidance of the support means to absorb the thermal expansion of the steam turbine casing during operation of the steam turbine casing, the support means By adjusting the grease to be automatically sprayed evenly on the rail surface by friction according to the distance difference between the step surface of the side support block and the rail surface of the mid-standard, it prevents the support block and the mid-standard from being fixed by friction to prevent thrust bearings. It is to provide a steam turbine mid-standard automatic lubrication device that can prevent a temperature rise due to local heating.

The steam turbine mid-standard automatic lubrication device according to an embodiment of the present invention for solving the above technical problem supports both ends of the steam turbine casing and absorbs thermal expansion of the steam turbine casing during operation of the steam turbine so as to contract or expand in the axial direction. Includes a moving front standard and a mid standard, and support means to prevent grease and fixation by supplying grease to the rail surface when the mid standard moves in the axial direction by being superimposed so as to be in surface contact with the left and right pair of rail surfaces of the mid standard, respectively. However, the support means is fixed to the concrete structure, while pressing the rail surface, a support block having a stepped surface formed on one side so that the mid-standard moves in the axial direction, and a grease outlet on one side of the floor while being installed on the upper side of the support block A formed grease box, a copper plate installed on the stepped surface and having a plurality of grease supply holes formed to supply grease to the rail surface, and a hollow that is inserted into the stepped surface to connect the grease outlet and the grease supply hole so that grease flows The pipe and the hollow pipe are placed in the center and installed to penetrate the bottom, step surface, and copper plate of the grease box. It characterized in that it comprises a grease injection switch to adjust the supply amount.

As another embodiment, the support block of the present invention is made of a metal material having an a-shape, and the horizontal end is formed with a stepped surface for guiding the mid-standard to move in the axial direction while pressing the rail surface. It is characterized in that it is fixed to the concrete structure to support the support means.

As another embodiment, the grease box of the present invention is made of a rectangular cylinder having a size corresponding to the upper planar area of the support block, and on one side of the bottom, a grease outlet is formed so as to match the upper end of the hollow tube inserted in the stepped surface. , On one side of the upper surface, a plurality of inlets are installed to inject grease from outside to the inside of the grease box.

As another embodiment, the copper plate of the present invention is made of a thin plate having a size corresponding to the flat area of the step surface of the support block, and one side of the flat surface is matched with the lower end of the hollow tube inserted in the step surface to receive grease and supply rail surface It is characterized in that a plurality of grease supply holes are uniformly supplied to the upper surface, and a chamber for continuously dispersing and supplying the grease to the plurality of grease supply holes is formed on one side of the upper surface after receiving and storing grease from the hollow tube.

As another embodiment, the plurality of grease supply holes of the present invention is formed to a certain depth from the lower surface of the copper plate to the upper portion, and is formed at regular intervals along the length direction of the copper plate while the length ends are arranged in the width direction of the copper plate. It is characterized by being formed in the form of a slot.

As another embodiment, the chamber of the present invention is formed to a certain depth from the top surface to the bottom of the copper plate, characterized in that the plurality of grease supply holes are received in the center of the floor.

As another embodiment, the grease injection switch of the present invention, the center of the hollow pipe is inserted to sequentially penetrate the bottom and the step surface and the copper plate of the grease box from left and right to the left and right to move up and down when rubbing against the rail surface It is characterized in that it consists of a pair of legs and an opening / closing plate which is connected to the upper end of the pair of left and right legs inside the grease box to open and close the grease outlet according to the lifting and lowering motion of the legs.

As another embodiment, the inner side of the grease box of the present invention is characterized in that it includes a pressurizing box that presses the grease toward the grease outlet so that the grease level in the grease box is not lowered by being slidably supported by a carbon member.

As another embodiment, the pressure box of the present invention is characterized in that it is made of a rectangular cylinder shape to be equal to the width of the top and bottom and left and right sides of the inner side of the grease box.

As another embodiment, the carbon member of the present invention is made of a coil spring, and is characterized in that a plurality of pieces are installed at regular intervals with respect to the horizontal side of the pressure box.

In the steam turbine mid-standard automatic lubrication device of the present invention, when the mid-standard is moved in the axial direction under the guidance of the support means so as to absorb the thermal expansion of the steam turbine casing during operation of the steam turbine casing, As the grease injection switch moves up and down due to the friction according to the distance difference with the rail surface of the mid-standard, the support block is designed to control the injection amount so that the grease in the grease box is automatically and evenly sprayed onto the rail surface through the grease supply hole of the copper plate It has the effect of preventing the temperature rise due to local heating of the thrust bearing by preventing the and mid-standard from being fixed by friction.

1 is a conceptual diagram of a casing installation of a high and medium pressure steam turbine mounted on a general front standard and a mid standard,
Figure 2 is a block diagram showing the support means for supporting the bottom of both sides of the mid-standard according to the present invention,
Figure 3 is an enlarged longitudinal sectional view of the support means for part A of Figure 2,
Figure 4 (a) (b) is a vertical cross-sectional view and a bottom view showing an enlarged copper plate according to the present invention,
5 is a configuration diagram for explaining the automatic lubrication operation state of the support means according to the present invention.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be interpreted as being limited to the embodiments described in detail below. This embodiment is provided to more fully describe the present invention to those skilled in the art. Therefore, the shape of the elements in the drawings may be exaggerated to emphasize a clearer description. It should be noted that the same configuration in each drawing may be indicated by the same reference numeral. Detailed descriptions of well-known functions and configurations that are judged to unnecessarily obscure the subject matter of the present invention are omitted.

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

Figure 2 is a block diagram showing the support means for supporting the bottom of both sides of the mid-standard according to the present invention, Figure 3 is an enlarged longitudinal sectional view of the support means for part A of Figure 2, Figure 4 (a) (b) Is a longitudinal sectional view and a bottom view showing an enlarged copper plate according to the present invention, and FIG. 5 is a configuration diagram for explaining the automatic lubrication operation state of the support means according to the present invention.

For the configuration of the present invention, the same reference numerals and names as those of the conventional configuration are given identically, and duplicate descriptions thereof are omitted.

2 to 5, the steam turbine mid-standard automatic lubrication device according to an embodiment of the present invention absorbs thermal expansion of the steam turbine casing 10 during steam turbine operation while supporting both ends of the steam turbine casing 10 By being axially contracted or expanded, the front standard 20 and the mid standard 30 and the mid-standard 30 are superimposed so as to be in surface contact with the left and right pair of rail surfaces 32 of the mid-standard 30, respectively. It includes a support means 40 to prevent adhesion by supplying grease to the rail surface 32 when moving in the axial direction.

That is, the support means 40 is fixed to the concrete structure 1, while pressing the rail surface 32 of the mid-standard 30, the mid-step 30 is moved stepwise on one side so that the step surface 42a ) Is formed on the support block 42, the support block 42 is installed on the upper side of the grease outlet 44a, the grease box 44 is formed, and the step surface 42a is installed on the rail surface The copper plate 46 in which a plurality of grease supply holes 46a are formed to supply grease to the 32 and the grease outlet 44a inserted into the stepped surface 42a of the support block 42 so that grease flows And a hollow pipe 48 connecting the grease supply hole 46a and the hollow pipe 48 in the center, so as to penetrate the bottom of the grease box 44, the step surface 42a, and the copper plate 46. The grease injector 50 and the grease box to open and close the grease outlet 44a or adjust the supply amount of grease while being elevated and lowered according to the friction distance with the rail surface 32 interlocked with the movement of the mid-standard 30 It includes a pressurizing box (52) to press the grease toward the grease outlet (44a) so that the grease level in the grease box (44) is not lowered by being slidably supported by an elastic member (54) on one side of the inside of (44).

At this time, the support block 42 is made of a metal material having an a-shape, and the horizontal end has a stepped surface 42a that guides the mid-standard 30 to be moved in the axial direction while pressing the rail surface 32. It is formed, the vertical end is fixed to the concrete structure (1) to support the support means (40).

The grease box 44 is made of a square cylinder shape having a size corresponding to the upper planar area of the support block 42, and on one side of the bottom, a hollow tube 48 inserted into the stepped surface 42a of the support block 42 ) A grease outlet 44a is formed to coincide with the upper end, and a plurality of inlets 44b are provided on one side of the upper surface to inject grease from the outside into the inside of the grease box 44.

The copper plate 46 is made of a thin plate having a size corresponding to the plane area of the step surface 42a of the support block 42, and on one side of the plane, the hollow plate is inserted into the step surface 42a of the support block 42. A plurality of grease supply holes 46a are formed to match the lower end of the pipe 48 and supply the grease evenly to the rail surface 32 of the mid-standard 30, and from the hollow pipe 48 on one side of the upper surface After receiving and storing grease, a chamber 46b for continuously distributing and supplying the plurality of grease supply holes 46a is formed.

At this time, the plurality of grease supply holes 46a is formed to a certain depth from the lower surface of the copper plate 46 to the upper side, and is formed at regular intervals along the length direction of the copper plate 46 while the width of the copper plate 46 It is formed in the form of a slot (Slot) with a longitudinal end in the direction.

The chamber 46b is formed to a predetermined depth from the upper surface of the copper plate 46 to the bottom, and is formed to accommodate the plurality of grease supply holes 46a in the center of the floor.

The grease injection switch 50, the center of the hollow pipe 48 and left and right through the bottom of the grease box 44 and the step surface 42a of the support block 42 and the copper plate 46 sequentially The pair of left and right legs 50a that are inserted and lowered when being rubbed against the rail surface 32 of the mid-standard 30 and the pair of left and right legs 50a inside the grease box 44 It is connected to the upper end of the leg (50a) is composed of an opening and closing plate (50b) to open and close the grease outlet (44a) according to the lifting operation.

The pressing box 52 is made of a rectangular cylinder shape to be the same as the width of the upper and lower and left and right sides with respect to the inner side of the grease box 44, in the grease box 44 by the elastic force of the elastic member 54 The injected grease is slid to press toward the grease outlet 44a.

The elastic member 54 is made of a coil spring, it is preferable that a plurality of spaced at a predetermined distance to the horizontal side of the pressure box 52 is installed.

And the grease outlet (44a) of the grease box (44), the chamber (46b) of the copper plate (46) and a number of grease supply holes (46a), the hollow pipe (48), the grease injection switch (50) are the support block ( A plurality of steps are formed at regular intervals along the axial direction with respect to the stepped surface 42a of 42) to supply and block grease independently.

In the steam turbine mid-standard automatic lubrication device of the present invention configured as described above, the mid-standard 30 receives the guidance of the support means 40 to absorb the thermal expansion of the steam turbine casing 10 during operation of the steam turbine casing 10. When moving in the direction, as shown in Fig. 5, when the distance between the step surface 42a of the support block 42 and the rail surface 32 of the mid-standard 30 approaches, it protrudes to the lower portion of the step surface 42a. As the pair of left and right legs 50a of the grease injector 50 are raised against the rail surface 32, the opening and closing plate 50b connected to the upper end of the pair of left and right legs 50a is grease box 44. The gap between the side grease outlet (44a) is increased, and the grease stored in the grease box (44) is discharged along the hollow pipe (48) through the gaps, and is collected in the chamber (46) side of the copper plate (46b). The grease collected in the chamber 46b is distributed through a plurality of grease supply holes 46a connected to the chamber 46b and is evenly sprayed on the rail surface 32 on the mid-standard 30 side.

That is, as the distance between the step surface 42a of the support block 42 and the rail surface 32 of the mid-standard 30 approaches, the pair of left and right legs 50a on the grease injector 50 side is in contact with the friction force. Since the gap between the opening and closing plate 50b and the grease outlet 44a is greatly increased due to the large difference in height to be pushed upward, a large amount of grease is supplied to the copper plate 46 through the grease outlet 44a. By spraying up to 46a), friction between the step surface 42a of the support block 42 and the rail surface 32 of the mid-standard 30 side is reduced, and thereby the step surface 42a of the support block 42 is reduced. It is possible to prevent the mid-standard 30 from being fixed by friction with the rail surface 32.

However, as the distance between the step surface 42a of the support block 42 and the rail surface 32 of the mid-standard 30 increases, the pair of left and right legs 50a on the side of the grease injector 50 has a frictional force. Less affected, and thus the grease injector 50 is lowered by its own weight and the height difference is lowered, so that the gap between the opening and closing plate 50b and the grease outlet 44a is narrowed and the copper plate 46 through the grease outlet 44a is reduced. ) A number of greases supplied to the plurality of grease supply holes 46a to be sprayed onto the rail surface 32 is reduced.

In addition, when the operation of the steam turbine casing 10 is stopped, the distance between the step surface 42a of the support block 42 and the rail surface 32 of the mid-standard 30 is farther away and there is no friction, so that grease is injected. As the switch 50 is lowered by its own weight, the grease discharge port 44a is blocked, and as a result, grease in the grease box 44 is not discharged, so that the grease supply is stopped.

Therefore, in the steam turbine mid-standard automatic lubrication device of the present invention, the mid-standard 30 is guided by the support means 40 to absorb the thermal expansion of the steam turbine casing 10 during the operation of the steam turbine casing 10 in the axial direction. When moving to, the grease injector 50 is lifted by friction according to the distance difference between the step surface 42a of the support means 40 side support block 42 and the rail surface 32 of the mid-standard 30. As the structure is to adjust the injection amount so that the grease in the grease box 44 is automatically injected to the rail surface 32 through the grease supply hole 46a of the copper plate 46 as it descends, the support block 42 and the mid standard 30 ) To prevent sticking due to friction, thereby preventing temperature rise due to local heating of the thrust bearing.

On the other hand, the present invention is not limited only to the above-described embodiments, but can be modified and modified within a range not departing from the gist of the present invention, and the technical idea to which such modifications and modifications are applied also belongs to the following claims. Must see.

1: Concrete structure 10: Steam turbine casing
20: Front Standard 30: Mid Standard
32: rail surface 40: support means
42: support block 42a: step surface
44: grease box 44a: grease outlet
44b: inlet 46: copper plate
46a: grease supply hole 46b: chamber
48: hollow pipe 50: grease injection switch
50a: Leg 50b: Switchgear
52: pressurized box 54: bullet member

Claims (10)

The front standard 20 and the mid standard 30 that support both ends of the steam turbine casing 10 and absorb the thermal expansion of the steam turbine casing 10 while moving to contract or expand in the axial direction during the steam turbine operation, and the mid Support means (prevented by supplying grease to the rail surface 32 when the mid-standard 30 moves in the axial direction by being overlapped so as to be in contact with each other on the right and left pair of rail surfaces 32 of the standard 30 ( 40),
The support means 40,
It is fixed to the concrete structure (1) while pressing the rail surface 32, the support block 42 is formed with a stepped surface (42a) on one side so that the mid-standard (30) is moved in the axial direction,
The grease box 44, which is installed on the upper portion of the support block 42, is formed with a grease outlet (44a) on one side of the floor,
A copper plate 46 installed on the step surface 42a and having a plurality of grease supply holes 46a formed to supply grease to the rail surface 32;
A hollow pipe 48 inserted into the stepped surface 42a to connect the grease outlet 44a and the grease supply hole 46a so that grease flows,
A rail surface 32 interlocked with the movement of the mid-standard 30 by placing the hollow tube 48 in the center and passing through the bottom and step surface 42a of the grease box 44 and the copper plate 46. Steam turbine mid-standard automatic lubrication device, characterized in that it comprises a grease injector (50) to open or close the grease outlet (44a) or adjust the amount of grease supplied while descending according to the friction distance. The method according to claim 1,
The support block 42 is made of a metal material having an a-shape,
The horizontal end is formed with a stepped surface 42a that guides the mid-standard 30 to move in the axial direction while pressing the rail surface 32,
The vertical stage is fixed to the concrete structure (1), characterized in that for supporting the support means (40) Steam turbine mid-standard automatic lubrication device. The method according to claim 1,
The grease box 44 is made of a rectangular cylinder shape of a size corresponding to the upper planar area of the support block 42,
On one side of the bottom, a grease outlet 44a is formed to match the upper end of the hollow tube 48 inserted in the step surface 42a,
Steam turbine mid-standard automatic lubrication device, characterized in that a plurality of injection holes (44b) are installed to inject grease from the outside into the inside of the grease box (44). The method according to claim 1,
The copper plate 46 is made of a thin plate having a size corresponding to the planar surface of the stepped surface 42a of the support block 42,
A plurality of grease supply holes 46a are formed on one side of the flat surface to match the lower end of the hollow tube 48 inserted in the step surface 42a to receive grease and evenly supply it to the rail surface 32,
Steam turbine mid-standard automatic lubrication device, characterized in that a chamber (46b) for continuously dispersing and supplying to the plurality of grease supply holes (46a) after receiving and storing grease from the hollow tube (48) is formed on one side of the upper surface. The method according to claim 4,
The plurality of grease supply holes (46a) is formed to a certain depth from the lower surface of the copper plate 46 to the top,
Steam turbine mid-standard automatic lubrication device, characterized in that formed at a predetermined interval along the longitudinal direction of the copper plate (46) is formed in the form of a slot (Slot) with a longitudinal end disposed in the width direction of the copper plate (46). The method according to claim 4,
The chamber 46b is formed to a certain depth from the top surface of the copper plate 46 to the bottom,
Steam turbine mid-standard automatic lubrication device, characterized in that the plurality of grease supply holes (46a) in the center of the floor is formed. The method according to claim 1,
The grease injection switch 50,
When the hollow tube 48 is placed in the center and is inserted to sequentially penetrate the bottom of the grease box 44, the stepped surface 42a, and the copper plate 46 from the left and right, it is raised and lowered when rubbed against the rail surface 32. And a pair of left and right legs (50a),
Inside the grease box 44 is connected to the top of the pair of left and right legs (50a) is characterized in that it consists of an opening and closing plate (50b) to open and close the grease outlet (44a) according to the elevating operation of the leg (50a) Steam turbine mid-standard automatic lubrication system. The method according to claim 1,
The inner side of the grease box 44 is slidably supported via a carbon member 54 so as to prevent the grease level in the grease box 44 from being lowered, pressurizing box 52 that presses the grease toward the grease outlet 44a. Steam turbine mid-standard automatic lubrication device comprising a. The method according to claim 8,
The pressurized box 52 is a steam turbine mid-standard automatic lubrication device, characterized in that the grease box 44 is made of a rectangular cylinder shape equal to the width of the top and bottom and left and right sides of the inner side of the grease box 44. The method according to claim 8,
The elastic member 54 is made of a coil spring type, the steam turbine mid-standard automatic lubrication device, characterized in that a plurality of spaced apart at a predetermined interval relative to the horizontal side of the pressure box (52).

Images