KR101825112B1 - Device for sealing shaft using air used in machine for particulate materials - Google Patents

Abstract

The present invention relates to an air shaft sealing device for a pulverizing machine capable of preventing contamination and external leakage of raw materials mixed in a mixer, which is a pulverizing machine, by using air pressure. To this end, the present invention is configured to prevent a leakage of mixed raw materials to a sealing portion of a shaft installed to penetrate a side wall of the mixer by using air pressure supplied from the outside, and simultaneously prevent external contaminants from penetrating into a food mixer. Moreover, the present invention can be completely sealed in response to shaking of the shaft for mixing and conveying the mixed raw materials.

Description

Technical Field [0001] The present invention relates to an air shaft sealing device for a powder machine,

The present invention relates to an air shaft sealing apparatus for a powder machine, and more particularly, to an air shaft sealing apparatus for a powder machine which is capable of preventing contaminants and external leakage of mixed raw materials fed by a powder machine such as a mixer, ≪ / RTI >

In general, a powder machine such as a mixer for mixing raw materials such as wheat flour, sugar, and seasoning includes a mixing and stirring shaft mounted between the side walls of the mixer for mixing and conveying the raw materials. Between the mixing shafts and the side walls of the mixer And a sealing means for preventing leakage of the mixed raw material is mounted.

Conventionally, gland packing, lip seal, mechanical seal, or the like is used as the sealing means, and they are attached to a shaft to form a shaft penetration hole Thereby preventing the mixed raw materials in the mixer from leaking out while being stirred and fed.

However, there has been a problem that the gland packing of the sealing means is worn out due to contact friction between the seal mounted on the shaft and the shaft, and foreign substances are generated due to wear, so that the generated foreign substances leak to the outside or are mixed into the mixed raw materials in the mixer .

In addition, even in the case of the lip seal, the lip is worn and damaged due to friction with the shaft, and foreign matter is generated due to wear and breakage, so that the mixed raw material in the mixer leaks to the outside or foreign substances are mixed into the mixer.

In addition, the mechanical seal has a structure for pressing a sealing surface by a spring pressure, and frictional heat is generated on the sealing surface, carbonization of the mixed raw material occurs, and the sealing surface is broken by the frictional heat, Or foreign substances are mixed into the mixer and contaminated.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to prevent leaking of mixed raw materials in a mixer as a powder machine using external air pressure, And it is an object of the present invention to provide an air shaft sealing apparatus for a powder machine which can maintain a sealed state completely in response to shaking of a shaft for mixing and conveying mixed raw materials.

In order to achieve the above object, according to an embodiment of the present invention, there is provided an air blowing apparatus comprising: a plurality of air blowing holes formed at regular intervals along a circumferential direction; An air ejection space spaced apart from the outer diameter surface is formed, and an air seal formed on both sides of the air ejection space with a contact surface abutting the outer diameter surface of the mixer shaft; A plurality of air passage holes are formed at regular intervals along the circumferential direction and an outer diameter surface of the air passage is communicated with the air passage hole so as to form an outer diameter surface of the air passage and an air transmission space, A stationary sheet spaced apart from the stationary sheet; A first rubber bellows and a second rubber bellows provided in a ring shape having a vertical cross section and a horizontal cross section and integrally formed with each other and sealing the air transmission space by being in close contact with the outer surface of the air seal and the side surface of the stationary sheet; A sealing housing provided in a cylindrical structure having an air supply line coinciding with an air passage space of the fixing seat, the sealing housing being disposed closely to an outer diameter surface of the fixing sheet; And a sealing cover assembled to one side of the sealing housing and closely attached to an outer wall surface of a side wall on which the mixer shaft protrudes.

According to an embodiment of the present invention, a plurality of first rotation preventing pinholes are formed in the fixing seat at regular intervals along the circumferential direction, and a plurality of second rotation preventing pinholes And the anti-rotation pin is inserted into the first anti-rotation pin hole and the second anti-rotation pin hole.

Preferably, the second rotation preventing pinhole formed in the air seal is formed to be larger than the diameter of the rotation preventing pin.

In an embodiment of the present invention, the inner surface of the sealing cover is fitted with a first O-ring which is in close contact with one side surface of the sealing housing to block leakage of air, and the outer surface of the sealing cover has a tank And a second O-ring which is in close contact with the outer wall surface and blocks leakage of air.

According to an embodiment of the present invention, a locking end for locking and pressing the vertical end of the first rubber bellows along the inner surface of the other side of the sealing housing is integrally formed.

According to an embodiment of the present invention, a seating groove is formed on both sides of the outer surface of the air seal, in which the horizontal ends of the first and second rubber bellows are seated.

According to another aspect of the present invention, there is provided an air blowing apparatus comprising: a plurality of air blowing holes formed at regular intervals along a circumferential direction; An air ejection space spaced apart from the outer diameter surface is formed, and an air seal formed on both sides of the air ejection space with a contact surface abutting the outer diameter surface of the mixer shaft; A stationary sheet provided in a structure in which a plurality of air diesel holes arranged at equal intervals along the circumferential direction are formed so as to penetrate and form an air transmission space with an outer diameter surface of the air seal; A first rubber bellows and a second rubber bellows which are integrally connected to each other by an outer ring and an inner ring and which are inserted between an outer diameter surface of the air seal and an inner diameter surface of the fixing sheet to seal the air transmission space, ; A sealing housing provided in a cylindrical structure having an air supply line coinciding with an air passage hole of the fixing seat, the sealing housing being disposed in close contact with an outer diameter surface of the fixing sheet; And a sealing cover assembled on one side of the sealing housing and on one side of the fixing sheet, the sealing cover being in close contact with the outer wall surface of the side wall on which the mixer shaft protrudes. do.

In another embodiment of the present invention, a plurality of first rotation preventing pinholes are formed in the fixing seat at equal intervals along the circumferential direction, and a plurality of second rotation preventing pinholes And the anti-rotation pin is inserted into the first anti-rotation pin hole and the second anti-rotation pin hole.

Preferably, the second rotation preventing pinhole formed in the air seal is formed to be larger than the diameter of the rotation preventing pin.

In another embodiment of the present invention, the inner surface of the sealing cover is equipped with a first O-ring and a second O-ring, which are in close contact with one side of the sealing housing and one side of the fixing sheet, respectively, .

In another embodiment of the present invention, a locking end for locking the other side surface of the fixing sheet along the inner diameter surface is formed integrally with the other side surface of the sealing housing, and a third o- Is mounted.

According to another embodiment of the present invention, an outer ring of the first rubber bellows and a fixing groove into which the inner ring of the second rubber bellows are inserted are formed between the outer diameter surface of the air seal and the inner diameter surface of the fixing sheet.

Through the above-mentioned means for solving the problems, the present invention provides the following effects.

First, according to the present invention, a shaft protruding to a side wall of a mixer, which is a powder machine, is sealed by using an air pressure supplied from the outside, thereby preventing the leakage of the mixed material in the mixer, Can be prevented.

Secondly, even when the shake of the shaft for mixing and conveying the mixed raw materials in the mixer is generated, since the clearance or impact is absorbed in response to the shaking in the rubber bellows, the complete sealing state can be maintained and the sealing durability can be always kept excellent.

Thirdly, since the sealing is performed using the air pressure, unlike the sealing means such as the conventional packing, there is no wear of the sealing part, and semi-permanent sealing of the shaft of the mixing device can be achieved.

1 is an exploded perspective view showing an air shaft sealing apparatus for a powder machine according to a first embodiment of the present invention;
2 is an assembled perspective view illustrating an air shaft sealing apparatus for a powder machine according to a first embodiment of the present invention.
3 is a sectional view showing an air shaft sealing apparatus for a powder machine according to a first embodiment of the present invention.
4 is a perspective view showing a state in which an air shaft sealing apparatus for a powder machine according to a first embodiment of the present invention is mounted on a side wall of a mixer;
5 is an exploded perspective view showing an air shaft sealing apparatus for a powder machine according to a second embodiment of the present invention.
6 is an assembled perspective view showing an air shaft sealing apparatus for a powder machine according to a second embodiment of the present invention.
7 is a sectional view showing an air shaft sealing apparatus for a powder machine according to a second embodiment of the present invention.
FIG. 8 is a perspective view showing a state in which an air shaft sealing apparatus for a powder machine according to a second embodiment of the present invention is mounted on a side wall of a mixer; FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First Embodiment

1 to 3 show an air shaft sealing apparatus for a powder machine according to a first embodiment of the present invention, and reference numeral 100 denotes an air seal.

The air seal 100 substantially abuts against the outer diameter surface of the shaft 10 of the mixer to block the leakage of the mixed raw material through the sealing portion of the shaft 10 penetrating the side wall 20 of the mixer, And serves to prevent penetration into the mixer.

The air seal 100 has a cylindrical structure. The air seal 100 has a plurality of air blowing holes 102 formed at equal intervals along the circumferential direction. The air blowing holes 102 are communicated with the air blowing holes 102 at an intermediate portion thereof. An air jetting space 104 is formed which is spaced apart from the outer diameter surface of the shaft 10.

A contact surface 106 is formed on both sides of the air ejection space 104 on the inner surface of the air seal 100 so as to abut the outer surface of the mixer shaft 10.

A seating groove 108 is formed on both sides of the outer surface of the air seal 100 in which the horizontal end 304 of the first and second rubber bellows 310 and 320 is inserted.

The fixed seat 200 is spaced apart from the outer diameter of the air seal 100 having the above-described structure.

The fixed seat 200 has a cylindrical structure and has a plurality of air passage holes 202 formed at equal intervals along the circumferential direction and has a concave air passage space 204 communicating with the air passage hole 202 And is spaced apart from the outer surface of the air seal 100.

At this time, the space between the outer surface of the air seal 100 and the inner surface of the stationary seat 200 is formed as an air transfer space 206.

A plurality of first rotation preventing pinholes 210 are formed on the stationary seat 200 along the circumferential direction at equal intervals. The air seal 100 is provided with a plurality of second A rotation preventing pinhole 110 is formed.

The rotation preventing pin 600 is inserted into the first rotation preventing pinhole 210 of the stationary seat 200 and the second rotation preventing pinhole 110 of the air seal 100, And the air seal 100 is also prevented from rotating together with the food mixer shaft 10 as the air seal 100 is also fixed by the rotation preventing pin 600. [

Preferably, the second anti-rotation pinhole 110 formed in the air seal 100 is formed to be larger than the diameter of the anti-rotation pin 600 because the air seal 100 prevents the rotation of the mixer shaft 10 And the first rubber bellows 310 and the second rubber bellows 320 absorb and absorb the interlocking action of the air seal 100 at this time.

The first rubber bellows 310 and the second rubber bellows 320 are formed in a ring shape having a vertical end 302 and a horizontal end 304 integrally formed with each other, The air seal 100 is closely attached to the side surface of the stationary seat 200 and seals the air transmission space 206. The air seal 100 absorbs and absorbs the movement of the mixer shaft 10 in conjunction with the rotational vibration and shaking do.

At this time, the horizontal ends 304 of the first and second rubber bellows 310 and 320 are inserted and seated in the seating groove 108 formed on both outer surfaces of the air seal 100, 200, and then pressed and fixed by the sealing housing 400 and the sealing cover 500.

The sealing housing 400 includes an air seal 100 and a fixing seat 200 interlocked with each other by a rotation preventing pin 600 and a first rubber bellows 310 and a second rubber bellows 320, And is provided with a cylindrical structure to be inserted therein.

More specifically, the sealing housing 400 has a cylindrical structure having an air supply line 402 coinciding with the air passage space 204 of the stationary seat 200, The first rubber bellows 310 and the second rubber bellows 320 are fixed to the ceiling of the sealing housing 400 so that the air seal 100 and the fixing seat 200 fastened together by the anti- It is in a state of being inundated in the inner diameter space.

At this time, a locking end 404 for locking and pressing the vertical end 302 of the first rubber bellows 310 along the inner surface of the other side of the sealing housing 400 is integrally formed.

The sealing cover 500 is mounted on one side of the sealing housing 400 and is in the form of a ring shaped plate which is in close contact with an outer wall surface of the food mixer side wall 20 from which the mixer shaft 10 protrudes.

When the sealing cover 500 is assembled to one side of the sealing housing 400 by bolts or the like, the inner surface of the sealing cover 500 contacts the vertical end 302 of the second rubber bellows 320 with the fixing sheet The vertical end 302 of the first rubber bellows 310 is brought into close contact with the locking end 404 formed on the other side of the sealing housing 400 to thereby prevent the air seal 100 The spacing space between the outer diameter surface and the inner diameter surface of the stationary seat 200 becomes a state in which the air transmission space 206 is sealed.

On the inner surface of the sealing cover 500, a first O-ring 502, which is in close contact with one side surface of the sealing housing 400 to block leakage of air, is mounted. On the outer surface of the sealing cover 500, And a second O-ring 504 which is in close contact with the outer wall surface of the mixer side wall 20 from which the shaft 10 protrudes and blocks air from leaking.

Hereinafter, the operation of the air shaft sealing apparatus for a powder machine according to the first embodiment of the present invention will be described.

4, the mixer shaft 10 protruding from the sidewall 20 of the mixer is supported by the bearing 30 and the mixer sidewall 30 and the shaft 10 are supported by the first embodiment of the present invention An air shaft sealing apparatus according to the present invention is mounted.

At this time, the sealing cover 500 is closely attached to the outer wall surface of the mixer side surface 20, and the air hose 40 connected to the air supplying means is connected to the air supply line 402 of the sealing housing 400.

First, when air is supplied to the air supply line 402 of the sealing housing 400 through the air hose 40, the air flows into the air passage space 204 of the fixing seat 200.

The air in the air passage space 204 of the stationary seat 200 passes through the air passage holes 202 of the stationary seat 200 and thereafter passes through the outer surface of the air seal 100 and the outer surface of the stationary seat 200 To the air transfer space 206, which is a spacing space between the inner surfaces of the inner and outer surfaces.

The air in the air transfer space 206 is passed through the air blowing hole 102 of the air seal 100 and then flows through the air formed in the inner diameter of the air seal 100, And is ejected into the ejection space 104.

Therefore, the air ejected into the air blowing space 104 of the air seal 100 comes into contact with the surface of the mixer shaft 10, and serves as a kind of air curtain and serves to air seal the mixer shaft 10 The leakage of the mixed raw material is prevented between the gap between the shaft 10 and the side wall 20 penetrating through the side wall 20 of the mixer while the external contaminants are prevented from penetrating into the side wall 20 of the mixer.

In addition, even if the air seal 100 is interlocked by the vibration of the shaft 10 due to the operation of the food mixer, the vibration of the shaft 10 is buffered by the first rubber bellows 310 and the second rubber bellows 320 So that the air seal 100 can continuously perform the role of air-sealing the mixer shaft 10.

Second Embodiment

5 to 7 show an air shaft sealing apparatus for a powder machine according to a second embodiment of the present invention, and reference numeral 100 denotes an air seal.

The air seal 100 substantially abuts against the outer diameter surface of the mixer shaft 10 to block the leakage of the mixed material through the sealing portion of the shaft 10 penetrating the side wall 20 of the mixer, To prevent penetration into the interior.

The air seal 100 has a cylindrical structure. The air seal 100 has a plurality of air-blowing holes 102 formed at equal intervals along the circumferential direction. The air-blowing holes 102 communicate with the middle portion of the air- An air ejection space 104 is formed which is spaced apart from the outer diameter surface of the mixer shaft 10. [

A contact surface 106 is formed on both sides of the air ejection space 104 on the inner surface of the air seal 100 so as to abut the outer surface of the mixer shaft 10.

A fixing groove 120 is formed in the outer surface of the air seal 100 in which the first rubber bellows 310 and the inner ring 308 of the second rubber bellows 320 are inserted and fixed.

The fixed seat 200 is spaced apart from the outer diameter of the air seal 100 having the above-described structure.

The stationary seat 200 has a cylindrical structure having a plurality of air passage holes 202 formed at equal intervals along the circumferential direction and is spaced apart from the outer surface of the air seal 100.

At this time, the space between the outer surface of the air seal 100 and the inner surface of the stationary seat 200 is formed as an air transfer space 206.

A fixing groove 220 into which the outer ring 306 of the first rubber bellows 310 and the outer rubber ring 320 of the second rubber bellows 320 is inserted is formed on the inner surface of the fixing sheet 200.

A plurality of first rotation preventing pinholes 210 are formed on the stationary seat 200 along the circumferential direction at equal intervals. The air seal 100 is provided with a plurality of second A rotation preventing pinhole 110 is formed.

The rotation preventing pin 600 is inserted into the first rotation preventing pinhole 210 of the stationary seat 200 and the second rotation preventing pinhole 110 of the air seal 100, And the air seal 100 is also prevented from rotating together with the shaft 10 of the mixer as the air seal 100 is also fixed by the rotation preventing pin 600. [

Preferably, the second anti-rotation pinhole 110 formed in the air seal 100 is formed to be larger than the diameter of the anti-rotation pin 600 because the air seal 100 prevents the rotation of the mixer shaft 10 And the first rubber bellows 310 and the second rubber bellows 320 absorb and absorb the interlocking action of the air seal 100 at this time.

The first rubber bellows 310 and the second rubber bellows 320 according to the second embodiment of the present invention have a structure in which the outer ring 306 and the inner ring 308 are integrally connected by the tension film 307 The inner ring 308 is inserted and fixed into the fixing groove 120 formed on the outer surface of the air seal 100 and the outer ring 306 is fixed to the fixing groove 200 formed on the inner surface of the fixing seat 200, (220).

The first rubber bellows 310 and the second rubber bellows 320 seal the air transfer space 206 formed between the outer surface of the air seal 100 and the inner surface of the stationary seat 200 In particular, the air seal 100 cushions and absorbs the interlocking action of the tension film 307 even when interlocked with the rotational vibration and shake of the shaft 10 of the mixer.

The first rubber bellows 310 and the second rubber bellows 320 are fixed to the inner circumference of the sealing housing 400 by the rotation prevention pins 600, It is put into space.

More specifically, the sealing housing 400 is provided in a cylindrical structure having an air supply line 402 coinciding with the air passage hole 202 of the stationary seat 200, The first rubber bellows 310 and the second rubber bellows 320 are fixed to the ceiling of the sealing housing 400 so that the air seal 100 and the fixing seat 200 fastened together by the anti- It is in a state of being inundated in the inner diameter space.

A sealing cover 500 which is in close contact with the outer wall surface of the food mixer side wall 10 from which the shaft 10 of the mixer protrudes is formed on one side of the sealing housing 400 and one side of the fixing sheet 200, .

The inner surface of the sealing cover 500 is provided with a first O-ring 502, which is in close contact with one side of the sealing housing 400 and one side of the fixing sheet 200 to block leakage of air, (504).

A locking end 404 for locking the other side of the fixing sheet 200 along the inner surface of the other side of the sealing housing 400 is formed integrally with the locking seat 404, A third O-ring 406 which is in close contact with the other side surface of the second O-

Hereinafter, the operation of the air shaft sealing apparatus for a powder machine according to the second embodiment of the present invention will be described.

8, the shaft 10 of the mixer protruding into the sidewall 20 of the mixer is supported by the bearing 30 and the sidewall 20 of the mixer and the shaft 10 are provided with the second An air shaft sealing apparatus according to an embodiment is mounted.

At this time, the sealing cover 500 is in close contact with the outer wall surface of the side wall 20, and the air supply line 402 of the sealing housing 400 is connected to the air hose 40 connected to the air supplying means.

First, when air is supplied to the air supply line 402 of the sealing housing 400 through the air hose 40, the air passes through the air passage hole 202 of the fixing seat 200, Which is a space between the outer diameter surface of the stationary sheet 200 and the inner diameter surface of the stationary sheet 200.

The air in the air transfer space 206 is passed through the air blowing hole 102 of the air seal 100 and then flows through the air formed in the inner diameter of the air seal 100, And is ejected into the ejection space 104.

Therefore, the air ejected into the air ejection space 104 of the air seal 100 comes into contact with the surface of the mixer shaft 10 and functions as an air curtain, and at the same time, functions to air seal the shaft 10 of the mixer Thereby preventing leakage of the mixing material between the shaft 10 and the side wall 20 penetrating the side wall 20 of the mixer while preventing external contaminants from penetrating into the side wall 20 of the mixer.

In addition, even if the air seal 100 is interlocked by the vibration of the shaft 10, the first rubber bellows 310 and the second rubber bellows 320 are absorbed by the tension film 307 so that the air seal 100 100 can continuously perform the role of air-sealing the shaft 10 of the mixer.

10: Mixer shaft 20: Mixer side wall
30: Bearing 40: Air hose
100: Air seal 102: Air blowing hole
104: air blowing space 106: contact surface
108: seat groove 110: second rotation prevention pin hole
120: fixing groove 200: fixing sheet
202: air passage hole 204: air passage space
206: air transmission space 210: first rotation preventing pin hole
220: fixing groove 302: vertical stage
304: horizontal plane 306: outer ring
307: tension film 308: inner ring
310: first rubber bellows 320: second rubber bellows
400: sealing housing 402: air supply line
404: Locking stage 406: Third O-ring
500: sealing cover 502: first o-ring
504: second o-ring 600: anti-rotation pin

Claims (12)

A plurality of air blowing holes 102 formed at regular intervals along the circumferential direction and passing through the air blowing holes 102 at an intermediate portion of the inner blowing holes 102 and spaced apart from the outer surface of the mixer shaft 10 An air seal 100 formed on both sides of the air ejection space 104 and having a contact surface 106 abutting the outer diameter surface of the mixer shaft 10;
A plurality of air passage holes 202 are formed at regular intervals along the circumferential direction and an air passage space 204 communicating with the air passage hole 202 is formed in the outer diameter surface of the air passage. 100) and the air transmission space (206), and is spaced apart from the fixed sheet (200);
The air transmission space 206 is in close contact with the outer surface of the air seal 100 and the side surface of the stationary sheet 200, A first rubber bellows 310 and a second rubber bellows 320 for sealing the first rubber bellows 310;
A sealing housing 400 provided in a cylindrical structure having an air supply line 402 coinciding with the air passage space 204 of the stationary seat 200 and closely disposed on the outer surface of the stationary seat 200; And a sealing cover (500) attached to one side of the sealing housing (400) and closely attached to an outer wall surface of the side wall (20) on which the mixer shaft (10) protrudes. Sealing device.
The method according to claim 1,
A plurality of first rotation preventing pinholes 210 are formed in the fixing sheet 200 at equal intervals along the circumferential direction. The air seal 100 is provided with a plurality of second rotation preventing pins Wherein a pin hole is formed in the first rotation preventing pin hole and the rotation preventing pin is inserted into the first rotation preventing pin hole and the second rotation preventing pin hole.
The method of claim 2,
Wherein the second rotation preventing pinhole (110) formed on the air seal (100) is formed to be larger than the diameter of the rotation preventing pin (600).
The method according to claim 1,
A first O-ring 502 is attached to the inner surface of the sealing cover 500 to prevent air from leaking from the one side of the sealing housing 400. The outer surface of the sealing cover 500 is provided with a mixer shaft 10 And a second O-ring (504) which is in close contact with an outer wall surface of the side wall (20) protruding from the side wall (20) and blocks leakage of air.
The method according to claim 1,
Characterized in that a locking end (404) for locking and pressing the vertical end (302) of the first rubber bellows (310) along the inner surface of the other side of the sealing housing (400) Sealing device.
The method according to claim 1,
Wherein a seating groove (108) in which the horizontal ends (304) of the first and second rubber bellows (310, 320) are seated is formed on both outer surfaces of the air seal (100).
A plurality of air blowing holes 102 formed at regular intervals along the circumferential direction and passing through the air blowing holes 102 at an intermediate portion of the inner blowing holes 102 and spaced apart from the outer surface of the mixer shaft 10 An air seal 100 formed on both sides of the air ejection space 104 and having a contact surface 106 abutting the outer diameter surface of the mixer shaft 10;
A plurality of air passage holes 202 are formed at regular intervals along the circumferential direction so as to penetrate through the fixing sheet 200, which is spaced apart from the outer diameter surface of the air seal 100, )Wow;
The outer ring 306 and the inner ring 308 are integrally connected by a tension film 307 and inserted between the outer surface of the air seal 100 and the inner surface of the stationary seat 200, A first rubber bellows 310 and a second rubber bellows 320 for sealing the transfer space 206;
A sealing housing 400 having a cylindrical structure formed with an air supply line 402 coinciding with the air passage hole 202 of the stationary seat 200 and closely disposed on the outer surface of the stationary seat 200; And a sealing cover 500 which is assembled on one side of the sealing housing 400 and one side of the fixing sheet 200 and is in close contact with the outer wall surface of the side wall 10 on which the shaft 10 for the mixer protrudes, Wherein the air shaft sealing device for a powder machine is configured to include an air shaft.
The method of claim 7,
A plurality of first rotation preventing pinholes 210 are formed in the fixing sheet 200 at equal intervals along the circumferential direction. The air seal 100 is provided with a plurality of second rotation preventing pins Wherein a pin hole is formed in the first rotation preventing pin hole and the rotation preventing pin is inserted into the first rotation preventing pin hole and the second rotation preventing pin hole.
The method of claim 8,
Wherein the second rotation preventing pinhole (110) formed on the air seal (100) is formed to be larger than the diameter of the rotation preventing pin (600).
The method of claim 7,
A first O-ring 502 and a second O-ring 504, which are in close contact with one side of the sealing housing 400 and one side of the fixing seat 200, respectively, Is mounted on the outer periphery of the air shaft.
The method of claim 7,
A locking end 404 for locking the other side of the fixing sheet 200 along the inner surface of the other side of the sealing housing 400 is formed integrally with the locking end 404, And a third O-ring (406) attached to the side surface is mounted.
The method of claim 7,
An outer ring 306 and an inner ring 308 of the first rubber bellows 310 and the second rubber bellows 320 are inserted between the outer diameter surface of the air seal 100 and the inner diameter surface of the fixed sheet 200, Wherein the fixing grooves (120, 220) are formed on the upper surface of the shaft member.

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