KR100496990B1 - a sealing unit for a rotary device - Google Patents

Abstract

The present invention relates to a sealing device for a rotating shaft which is installed on the outer periphery of the rotating shaft in a mechanical element such as a pump, the mounting groove (24, 26, 44, 64, 66) into which a plurality of sealing members (3, 5, 11) is inserted ) Are formed on the inner circumference, and the shaft holes 22, 42, and 62 through which the rotating shaft 100 penetrates are formed in the center of the seating grooves 24, 26, 44, 64, and 66, and the cooling water transport path 94 A housing portion 200 having a plurality of housings 2, 4, 6 formed inside the side walls; Axial holes 82 and 92 attached to the rear end of the housing part 200 and having coolant inlets and outlets 83 and 84 communicating with the coolant transport path 94 are formed therein, and the rotating shaft 100 penetrates through the center thereof. A flange portion 300 formed and formed; A hollow 72 having a rotating shaft 100 inserted therein is provided, and a sleeve 7 fitted into the shaft holes 22, 42, 62, 82, and 92 of the housing part 200 and the flange part 300. Wow; A plurality of sealing members (3, 5, 11) seated in the seating grooves (24, 26, 44, 64, 66) with a sealing surface grounded at the outer circumference of the sleeve (7); A collar portion 14 coupled to the front end of the housing portion 200 to prevent the sleeve 7 from being separated; By including, the sealing property improved and the structure was concise.

Description

{A sealing unit for a rotary device}

The present invention relates to a sealing device for a rotating shaft, and more particularly, it is possible to prevent the leakage of fluid to be transported and installed on the outer periphery of the rotating shaft in the mechanical element, such as a pump, and to simplify the structure to minimize the occupied space In particular, the present invention relates to a non-lubricating type sealing device for a rotating shaft that does not require lubricating oil supply.

In general, mechanical elements with rotating shafts, such as gearboxes, chemical pumps, agitators, mixers, transmissions, dryers, and compressors, have a separate sealing device on the rotating shaft to prevent leakage of fluids by rotating the rotating shaft. Mechanical seal) is necessarily installed.

That is, Figure 5 shows the structure of a conventional mechanical seal,

A rotating ring body 2 'fixedly supported by the plurality of bolts on the rotating shaft 1'; A guide shaft 3a 'is formed at one end so as to be slidable in the guide hole 2a' of the rotary ring body 2 ', and a spring 3b' is installed between the guide shafts 3a '. An elastic support 3 'having a fixing protrusion 3c' formed at another end thereof; A fixing groove 4a 'corresponding to the fixing protrusion 3c' of the elastic support 3 'is formed, and an O-ring 4b' is installed on the inner circumferential surface thereof, and at the same time, the hard ring 4c 'slightly protrudes to one end thereof. A sealing ring body 4 'which is inscribed to be inclined; Fixing ring body 5 which is in contact with the rotating shaft 1 'and one end thereof is in close contact with the hard ring 4c' of the sealing ring body 4 'and fixed to a fixing part (not shown) independent from the rotating shaft 1'. A lamp is installed in a housing (not shown).

That is, the fixing groove 4a in the fixing projection 3c 'of the elastic support 3' in a state in which the rotating ring 2 'coupled to the elastic support 3' is fixed to the rotating shaft 1 'by a bolt. ') Is coupled so that the sealing ring body 4' is rotated together with the rotating shaft 1 'while one end of the fixing ring body 5' is fixed to the hard ring 4c 'of the sealing ring body 4'. ) So that the fixed ring body 5 'is idling from the rotating shaft 1' so that the fluid flowing through the rotating shaft 1 is blocked by the O-ring 4b 'of the sealing ring body 4'. Then, the remaining leaking fluid is blocked using the rigid ring 4c 'and the stationary ring body 5' closely contacted with each other.

However, in the conventional mechanical seal, the sealing ring 4 'and the rotating ring 2' coupled with the elastic support 3 'are rotated at high speed by the rotating shaft 1', while the sealing ring 4 ' Since the fixed ring body 5 'interviewed with the hard ring 4c' is maintained in a fixed state, the friction coefficient between the hard ring 4c 'and the fixed ring body 5' becomes very high, especially in the non-lubricated state. Not only is the wear aggravated, but this causes a problem that the sealing force between the hard ring 4c 'and the fixed ring body 5' is greatly lowered and the efficiency is significantly lowered.

In addition, the structure of the sealing device is very complicated, so that its processing is difficult and at the same time the assembly and repair of the sealing device is very difficult, the rubber O-ring (4b) is very vulnerable to chemicals to limit the application of high speed, high temperature, high pressure There were many problems such as that there are.

In particular, the sealing device for preventing leakage under pressure and vacuum conditions has a disadvantage in that a lot of manufacturing labor is required because the structure becomes more complicated.

In addition, in order to cool the frictional heat generated from the hard ring 4c 'and the fixed ring body 5' contacted with the high speed rotation of the rotary shaft 1 ', a cooling jacket is installed on one side thereof, but the heating point and the separation distance are It was difficult to achieve a substantial cooling effect, so there was a problem that the life is shortened.

In particular, since the mechanical seal is a lubricant because it is necessary to prevent the leakage of the fluid by forming the oil film by the surface contact, a separate lubricant supply system should be provided to supply the lubricant.

This is the main cause of yield reduction in semiconductor equipment that requires high precision, and it always contains the problem that the lubricant can penetrate inside. As a result, a mechanical seal unit composed of a conventional mechanical seal has a very long service life. A short case occurs.

In addition, the prior art of the sealing method by the surface contact has a problem that does not prevent the penetration of the slurry using the ultra-fine particles, causing the life of the mechanical seal unit is gradually shortened.

The present invention has been made to solve the problems of the prior art, and greatly improves the sealability, at the same time facilitate the processing and assembly, easy to repair, and can be applied at high speed, high temperature, high pressure and vacuum conditions. The purpose of the present invention is to provide a sealing device for a rotating shaft that improves cooling efficiency and improves durability and lifespan.

In addition, the present invention has another object to make the sealing member by integrally forming the curved annular wing portion on the inner circumference of the annular support, and to further improve the sealing force by addressing the sealing member to a large number.

It is still another object of the present invention to increase the sealing force by installing an additional sealing member by attaching an elastic prosthesis to the annular wing.

In addition, the sealing member is in line contact with the rotating object to minimize the friction force is to eliminate the need for the supply of lubricating oil.

The present invention to solve the above object

A plurality of seating grooves into which a plurality of sealing members are inserted are formed at an inner circumference thereof, and a shaft hole through which a rotating shaft penetrates is formed in the center of the seating recess, and a housing part in which a cooling water transport path is formed in a plurality of housings is spoken. Wow;

A flange portion attached to a rear end of the housing portion, the cooling water inlet and outlet communicating with the cooling water transport path formed therein, and a shaft hole through which a rotating shaft penetrates is formed in a central portion thereof;

A sleeve having a hollow in which a rotating shaft is inserted and fitted into the shaft hole of the housing portion and the flange portion;

A plurality of sealing members seated in the seating grooves with a sealing surface grounded at the outer circumference of the sleeve;

A collar part which is fastened to a front end of the housing part to prevent the sleeve from being separated; It is characterized by including the.

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

1 is an exploded perspective view of a sealing device for a rotating shaft according to the present invention, Figure 2 is a combined cross-sectional view of the sealing device for a rotating shaft according to the present invention, Figure 3 is an enlarged cross-sectional view of A in FIG. .

As shown in Figures 1 and 3,

The housing part 200 is installed in a mechanical device equipped with a rotating shaft 100, such as a gear box and various transfer pumps, and has a cylindrical hole 22, 42, 62 in which the rotating shaft 100 is inserted. The first, second, and third housings 2, 4 and 6 of the shape are sequentially multistage and then fastened and fixed by the long bolts 29.

Here, the seating grooves 24, 26 having shaft holes 22, 42, and 62 through which the rotating shaft 100 penetrates through the inner circumference of the first, second, and third housings 2, 4, 6. , 44, 41, 46, 66 are formed in plural.

Looking at this in more detail, the first housing 2 is formed with a shaft hole 22 through which the sleeve 7 penetrates inside, and an oil sealing member 3 is inserted into the inner circumference while being connected to the shaft hole 22. The first seating groove 24 is formed, and the second seating groove 26 is formed in the rear of the first seating groove 24, the bearing 18 is inserted, the side of the second side A lubricating oil injection hole 28 communicating with the seating groove 26 is formed, and a plurality of first fastening holes 27 to which the long bolts 29 are fastened are formed at the other side of the side wall.

The second housing 4 is a cylindrical body having a shaft hole 42 through which the rotating shaft 100 penetrates inside, and has a fourth seating groove 41 having the same shape as the first seating groove 24 at the rear of the inner circumference. Is formed, and a third seating groove 44 in which the bearing 18 is seated is formed at an upper portion thereof, and a seal cover 61 of the third housing 6 is inserted in the rear of the fourth seating groove 41. The fifth seating groove 46 is formed, and one side of the side wall is formed with a lubricating oil outlet 48 in communication with the third seating groove 44, and the other side of the side bolt is fastened to the long bolt 29 The two fastening holes 47 are attached to the rear end of the first housing 2 while being formed in plural, and then fixed by the long bolts 29.

In addition, the oil leakage confirmation hole 64 communicating with the fourth seating groove 41 is formed at one side, so that it is possible to check whether or not the fluid generated inside is leaked.

The third housing 6 is a cylindrical body having a shaft hole 62 through which the rotating shaft 100 penetrates inside, and a seal cover 61 inserted into the fifth seating groove 46 is screwed at the front end thereof. In the inner circumference connected to the shaft hole 22, sixth seating grooves 66 in which a plurality of first and second sealing members 5 and 11 are seated are formed, and the sixth seat is formed at one side of the side wall. The cooling water conveying path 94 communicating with the groove 66 is formed in several branches, and the second housing 4 is formed at the other side of the side wall with a third fastening hole 67 to which the long bolt 29 is fastened. After being attached to the rear end is fixed by a long bolt (29).

The flange portion 300 is the first flange (8) and the second flange (9) is fixed integrally by screwing, then the third housing (6) while being fitted to the outer periphery of the rotary shaft 100 It is attached to the rear end of the cover the housing portion 200.

Here, the first flange 8 has a seventh seating groove 81 having the same diameter as the sixth seating groove 66 of the third housing 6 is formed on the inside, the cooling water injection hole 84 and the outside A fourth fastening hole 88 and a plurality of first screw holes 89 to which the cooling water discharge port 83 and the long bolt 29 are fastened are formed.

The second flange 9 has a shaft hole 92 through which the rotating shaft 100 penetrates, and a coolant feed path 94 communicating with the coolant inlet 84 and the coolant outlet 83 on one side thereof. The second screw hole 95 corresponding to the first screw hole 89 of the first flange 8 is formed in one side.

The sleeve 7 is a cylindrical body having an outer diameter that is fitted into the shaft hole 22 of the housing portion 200 and the flange portion 300, and the hollow 72 is inserted into the rotating shaft 100 therein. It is fitted through the shaft hole 22 of the housing 200 and the flange 300.

Here, the inner circumference of the hollow 72 is provided with a plurality of sealing rings 74 to improve the sealing force, the rotary shaft 100 is fitted to the hollow 72.

The sealing members 3, 5 and 11 are oil sealing members 3 interposed in the first and fourth seating grooves 24 and 41 of the first and second housings 2 and 4, and And a plurality of base rings 10, 12, 13 interposed between the sixth seating grooves 66 of the housing 6, and first and second sealing members 5, 11 interposed therebetween. Preferably, the plurality of sealing members 3, 5, and 11 are installed so that the sealing surface of the inner circumference thereof is grounded to the outer circumference of the sleeve 7.

At this time, the material of the oil sealing member 3 and the first and second sealing members (5, 11) is made of PTFE + carbon, PTFE + carbon + graphite, PTFE + polyimide, PTFE + polyimide + graphite, PTFE + polyimide + carbon It is made of a material with some elasticity.

Here, the oil sealing member 3 is interposed in the first seating groove 24 to be grounded on the outer periphery of the sleeve 7 so that dust and contaminants, etc., penetrated from the outside do not come into contact with the lubricating oil therein, The inner diameter is slightly smaller than that of the sleeve 7 so that the sealing force is improved.

The oil sealing member 3 is a circular ring having a cross-sectional shape of approximately 'c', and a plurality of sealing lips 36 protruding from the outer circumference of the sleeve 7 and grounded on the outer surface of the lower horizontal surface are formed on the lower horizontal surface. The inner surface of the spring 32 is interposed, the inner surface of the vertical plane and the upper horizontal plane is made of a metal implant 34 of approximately '┏' shape is inserted into the cross section to prevent deformation.

Accordingly, the holding force of the sealing lip 36 may be further improved by the tension of the spring 32, and the shape may be maintained by the metal implant 34, thereby improving durability and lifespan.

The first sealing member 5 has an annular wing portion 54 curved to one side at an inner circumference of the annular support body 52 and is interposed in the sixth seating groove 66 of the third housing 6. Thus, the annular wing portion 54 is installed to be grounded on the outer circumference of the sleeve 7 to prevent leakage of the fluid.

The second sealing member 11 is a circular ring having a cross-section of approximately 'c' shape, the outer surface of the lower horizontal surface is formed with a sealing surface 110 which is grounded with the outer periphery of the sleeve, to prevent deformation inside The shape of the '112' shape cross section is inserted into, and is seated on the inner circumference of the second base ring 12 to be described later.

The first, second, and third base rings 10, 12, 13 are formed on the outer circumference of the cooling groove 120 communicating with the cooling water transfer path 94, and a plurality of sealing O-rings are interposed therebetween. As a circular ring shape, it is interposed in contact with the first sealing member 5 interposed in the sixth seating groove 66, thereby supporting the first sealing member 5 and improving the cooling effect.

Here, the second base ring 12 seats the second sealing member 11 at its inner circumference.

In addition, the first sealing member 5 and the second sealing member 11 may be interposed by changing the position as necessary, the installation number may be installed by changing one or more.

That is, as shown in Figure 4, in order to prepare when the vacuum state on both sides of the rotating shaft, the sealing surface of the annular blade portion 54 and the second sealing member 11 of the first sealing member (5) ( By installing the 110 facing each other, even if the sealing surface is pulled by the vacuum pressure applied from both sides can be installed so that the sealing force can be maintained.

Referring to the coupling relationship of the present invention configured as described above are as follows.

The oil sealing member 3 is interposed in the first seating groove 24 of the first housing 2, and the bearing 18 is interposed in the second seating groove 26.

The bearing 18 is interposed in the third seating groove 44 of the second housing 4, and the oil sealing member 3 is interposed in the fourth seating groove 41.

The first sealing member 5, the first base ring 10, the second sealing member 11, the second base ring 12 and the third in the sixth seating groove 66 of the third housing 6. The base ring 13 is sequentially inserted and interposed.

Meanwhile, the second flange 9 is connected to the rear surface of the first flange 8, and the first screw hole 89 and the second screw hole 95 coincide with the fixing bolt 130 to fix and fasten the flange portion. Complete the assembly of 300.

After the assembly is completed, the second housing 4 and the third housing 6 and the flange portion 300 are connected to the rear end of the first housing 2, and then each of the fastening holes 27, 47, 67 and 88. By fastening the long bolt 29 to the screw to be fixed integrally, the front end of the first housing (2) by tightening the V-ring 15 and the collar 14 by the sealing device for the rotating shaft according to the present invention Assembly is completed.

After the assembly is completed as described above, the rotary shaft 100 is fitted into the inner hollow 72 of the sleeve 7, and then the cooling pipe is connected to the cooling water inlet 84 and the cooling water outlet 83 to complete the installation. .

In addition, a lubrication supply device (not shown) is installed at the lubricating oil inlet 28 and the lubricating oil outlet 48, and a leaking oil detecting device (not shown) is installed at the leaking oil confirmation hole 64.

As described above, the sealing device for a rotating shaft according to the present invention is installed on a rotating shaft in a mechanical element having a rotating shaft, such as a gearbox, a chemical pump, a stirrer, a mixer, a transmission, a dryer, a compressor, and supports a rotating drive of the rotating shaft. In addition, the sealing property is greatly improved to prevent the leakage of the fluid, and the structure is simple, so that it is easy to process and assemble, and the maintenance thereof is easy, while the cooling efficiency is improved, and durability and lifespan are improved.

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1 is an exploded perspective view of a sealing device for a rotating shaft according to the present invention

Figure 2 is a combined cross-sectional view of the sealing device for a rotating shaft according to the present invention

3 is an enlarged cross-sectional view of A in FIG. 2.

Figure 4 is a cross-sectional view showing another embodiment of the closure device in the present invention

Figure 5 is a cross-sectional view showing an embodiment of a conventional mechanical sealing device for a rotating shaft

Explanation of symbols on main parts of the drawing

2: first housing 3: oil sealing member

4: 2nd housing 5: 1st sealing member

6: third housing 7: sleeve

8: first flange 9: second flange

10: first base ring 11: second sealing member

12: second base ring 13: third base ring

14: collar 15: V-ring

22, 42, 62, 82, 92: shaft work 24: first seating groove

26: 2nd seating groove 27: 1st fastening work

28: lube oil inlet 29: long bolt

32: spring 34: metal implant

36: sealing lip 41: fourth seating groove

44: third seating groove 46: fifth seating groove

47: second fastening hole 48: lubricating oil outlet

52 support body 54 annular wing portion

61: seal cover 63, 130: fixing bolt

64: oil leakage check 65: cooling water transfer path

66; 6th seating groove 72: hollow

74: sealing ring 81: seventh seating groove

83: cooling water outlet 84: cooling water inlet

86, 94 Cooling water transfer path 88: 4th fastening

89: 1st screw thread 95: 2nd screw thread

100: rotating shaft 110: sealing surface

112: implant 200: housing portion

300: flange portion

Claims (8)

delete In the center, housings 2, 4, and 6 formed with a plurality of seating grooves 24, 26, 44, 41, 46, 66 having shaft holes 22, 42, and 62 through which the rotating shaft 100 passes. A housing portion 200 in which speech is made; The flange portion 300 is composed of a first flange 8 and a second flange 9 having shaft holes 82 and 92 through which the rotating shaft 100 penetrates in a central portion thereof and attached to the rear end of the housing 200. ; A hollow 72 having a rotating shaft 100 inserted therein is provided, and a sleeve 7 fitted into the shaft holes 22, 42, 62, 82, and 92 of the housing part 200 and the flange part 300. Wow; Sealing members (3, 5, 11) and base rings (10, 12, 13), the sealing surfaces of which are seated in the seating grooves (24, 46, 66) grounded at the outer circumference of the sleeve (7); A collar portion 14 coupled to the front end of the housing portion 200 to prevent the sleeve 7 from being separated; In the sealing device for a rotating shaft comprising a, The housing part 200, A shaft hole 22 through which the sleeve 7 penetrates is formed inside, and a first seating groove 24 into which the oil sealing member 3 is inserted is formed at the inner circumference thereof and is connected to the shaft hole 22. A second seating groove 26 in which a bearing 18 is inserted is formed at the rear of the first seating groove 24, and at one side of the side wall, a lubricating oil inlet 28 communicating with the second seating groove 26. A first housing 2 formed with a plurality of first fastening holes 27 to which the long bolts 29 are fastened to the other side of the side wall; A shaft hole 42 through which the rotating shaft 100 penetrates is formed inside, and a fourth seating groove 41 having the same shape as that of the first seating groove 24 is formed in the rear of the inner circumference, and a bearing 18 thereon. The third seating groove 44 is formed to be seated, the fifth seating groove 46 is formed in the rear of the fourth seating groove 41, the seal cover 61 of the third housing 6 is inserted. The lubricating oil outlet 48 is formed at one side of the side wall to communicate with the third seating groove 44, and the oil leakage confirmation hole 64 is formed at the other side of the side wall to communicate with the fourth seating groove 41. And a second housing fixed to the rear bolt 29 after being attached to the rear end of the first housing 2 with a plurality of second fastening holes 47 fastened to the long bolt 29 inside the side wall. (4); A shaft hole 62 through which the rotating shaft 100 penetrates is formed therein, and a seal cover 61 inserted into the fifth seating groove 46 is screwed in the front end thereof, and an inner circumference connected to the shaft hole 22. The sixth seating groove 66 is formed with a plurality of first and second sealing members (5, 11) is seated, the coolant feed path (94) communicating with the sixth seating groove 66 on one side of the side wall ) Is formed in several branches, and the other side of the side wall is attached to the rear end of the second housing 4 with the third fastening hole 67 to which the long bolt 29 is fastened, and then the long bolt 29 A third housing 6 which is fixed by; It is included, The first, second and third housings 2, 4 and 6 are sequentially addressed while the rotary shaft 100 is fitted into the shaft holes 22, 42 and 62, and then to the long bolt 29. Rotating device for a rotating shaft, characterized in that fastened by fixing. In the center, housings 2, 4, and 6 formed with a plurality of seating grooves 24, 26, 44, 41, 46, 66 having shaft holes 22, 42, and 62 through which the rotating shaft 100 passes. A housing portion 200 in which speech is made; The flange portion 300 is composed of a first flange 8 and a second flange 9 having shaft holes 82 and 92 through which the rotating shaft 100 penetrates in a central portion thereof and attached to the rear end of the housing 200. ; A hollow 72 having a rotating shaft 100 inserted therein is provided, and a sleeve 7 fitted into the shaft holes 22, 42, 62, 82, and 92 of the housing part 200 and the flange part 300. Wow; Sealing members (3, 5, 11) and base rings (10, 12, 13), the sealing surfaces of which are seated in the seating grooves (24, 46, 66) grounded at the outer circumference of the sleeve (7); A collar portion 14 coupled to the front end of the housing portion 200 to prevent the sleeve 7 from being separated; In the sealing device for a rotating shaft comprising a, The flange portion 300, A seventh seating groove 81 having the same diameter as the sixth seating groove 66 of the third housing 6 is formed on the inner side, and a cooling water inlet 84, a cooling water outlet 83, and the long bolt ( A first flange 8 having a fourth fastening hole 88 and a plurality of first screw holes 89 formed thereinto; A coolant feed path 94 communicating with the coolant inlet 84 and the coolant outlet 83 is formed at one side thereof, and a second corresponding to the first screw hole 89 of the first flange 8 is formed at one side thereof. A second flange 9 having a plurality of screw holes 95 formed therein; It is included, After the first flange 8 and the second flange 9 is fixed integrally by screwing, it is coupled to one end of the housing portion 200 while being fitted to the outer periphery of the rotary shaft 100 Sealing device for rotating shaft. In the center, housings 2, 4, and 6 formed with a plurality of seating grooves 24, 26, 44, 41, 46, 66 having shaft holes 22, 42, and 62 through which the rotating shaft 100 passes. A housing portion 200 in which speech is made; A shaft hole 82 through which the rotating shaft 100 penetrates is formed in the center, and a seventh seating groove 81 having the same diameter as the sixth seating groove 66 of the third housing 6 is formed inside, and the outer side thereof is formed. The first flange 8 is formed with a fourth fastening hole 88 and a plurality of first screw holes 89 to which the coolant inlet 84, the coolant outlet 83, and the long bolt 29 are fastened. A shaft hole 92 through which the rotating shaft 100 penetrates is formed therein, and a cooling water feed path 94 communicating with the cooling water injection port 84 and the cooling water discharge port 83 is formed at one side thereof, and the first flange is formed at one side thereof. The flange portion 300 is composed of a second flange (9) formed of a plurality of second screw holes (95) corresponding to the first screw hole (89) of the (8) attached to the rear end of the housing portion 200 Wow; A hollow 72 having a rotating shaft 100 inserted therein is provided, and a sleeve 7 fitted into the shaft holes 22, 42, 62, 82, and 92 of the housing part 200 and the flange part 300. Wow; Sealing members (3, 5, 11) and base rings (10, 12, 13), the sealing surfaces of which are seated in the seating grooves (24, 46, 66) grounded at the outer circumference of the sleeve (7); A collar portion 14 coupled to the front end of the housing portion 200 to prevent the sleeve 7 from being separated; In the sealing device for a rotating shaft comprising a, The sealing member, As a circular ring having a cross-section of approximately 'c', a plurality of sealing lips 36 protruding from the outer periphery of the sleeve 7 and grounded on the outer surface of the lower horizontal surface are formed, and the spring 32 is formed on the inner surface of the lower horizontal surface. The first and fourth seats of the first and second housings (2) and (4) are interposed, and the inner surfaces of the vertical plane and the upper horizontal plane are provided with metal implants 34 having a substantially '┏' shape in cross section to prevent deformation. An oil sealing member 3 interposed in the grooves 24 and 41; An annular wing portion 54 curved to one side is formed at an inner circumference of the annular support body 52, and the annular wing portion 54 is interposed in the sixth seating groove 66 of the third housing 6. A first sealing member (5) interposed in the sixth seating groove (66) of the third housing (6) while being grounded at the outer circumference of the sleeve (7); As a circular ring having a cross-section of approximately 'c', the outer surface of the lower horizontal surface is formed with a sealing surface 110 which is grounded with the outer periphery of the sleeve, and the inner side of the shape of the '⊂' shape to prevent deformation ( 112 is provided with a second sealing member (11) seated on the inner circumference of the base ring (12); Rotating device for a rotating shaft comprising a. delete delete delete delete