KR102295035B1 - Disk-type membrane diffuser - Google Patents

Abstract

A disk-type membrane diffuser according to an embodiment of the present invention includes: a body that can be connected to a separate air supply pipe and has a supply hole to discharge air supplied from the air supply pipe; a membrane that is seated on the body, is made of an elastic material, and includes a plurality of ventilation holes; a space ring that is seated on the membrane to limit upward movement of at least a part of the membrane; and a fixing cover that is coupled to the body to fix the seating state of the body, the membrane, and the space ring.

Description

Disc type membrane diffuser {DISK-TYPE MEMBRANE DIFFUSER}

The present invention relates to a disk-type membrane diffuser.

The air diffuser is installed in an aeration tank of a wastewater treatment facility, etc. to supply oxygen to water, and is a device for increasing dissolved oxygen by dispersing air into fine bubbles in water. Various types of such a diffuser are known, and among them, a membrane diffuser in which micropores are perforated in a soft membrane is most widely used.

The membrane air diffuser is provided in a structure in which the stretchable membrane is expanded by compressed air, and the stretchable membrane may be excessively expanded by air pressure, thereby losing its original elasticity or rupture. In addition, the membrane may be separated from the body by air pressure, which may cause a problem that a normal operation is impossible.

The membrane diffuser as described above is used by combining a plurality of diffusers with one air supply pipe. In the case of air leakage or separation of the membrane due to a problem in one diffuser, the overall air pressure is reduced and the air pressure of the other diffuser is reduced. It can affect the operation, so it is very important to prevent it.

1 is a schematic cross-sectional view of a coupling part of a conventional membrane diffuser. Referring to Figure 1, the conventional membrane diffuser is a rubber material having a disk-shaped membrane (M) having elasticity is seated on a plate (P), the fixing frame (C) is coupled with one-touch type or screw type to the membrane (M) And it is provided in the form of fixing the plate (P).

The one-touch coupling type diffuser has a simple configuration and an easy coupling method, but has a disadvantage in that a separate device must be used since a strong external force is required for coupling and separation. Therefore, it is not easy to replace the membrane (M) due to damage to the membrane (M).

In addition, in the case of the screw coupling type diffuser, coupling and separation are easy, but if the screw coupling is loosened even a little by vibration or shock during use, the membrane (M) and the fixing frame (C) are spaced apart and the membrane (M) A problem of separation from between the plate (P) and the fixing frame (C) may occur.

Patent Literature: Korean Patent Registration No. 10-1291641 (Registered on July 25, 2013)

Embodiments of the present invention have been proposed to solve the above problems, and an object of the present invention is to provide a disk-type membrane diffuser capable of preventing separation of the membrane during use while being easy to combine and separate.

Another object of the present invention is to provide a disk-type membrane diffuser capable of improving the efficiency of the diffuser by preventing air leakage and backflow of wastewater.

According to an embodiment of the present invention, the main body can be connected to the air supply pipe, the supply hole is formed so as to discharge the air supplied from the air supply pipe; a membrane seated on the body, provided with an elastic material, and including a plurality of ventilation holes; a space ring provided between the body and the membrane to limit upward movement of at least a portion of the membrane; and a fixing cover coupled to the main body to fix a seating state of the main body, the membrane, and the space ring.

In addition, the membrane, a seating body in which the vent hole is formed; and a rim portion provided on a peripheral portion of the seating body and having a thickness greater than that of the seating body, wherein the space ring is seated on an upper side of the rim portion to limit the upward movement of the rim portion. have.

In addition, the rim portion may be provided in a polygonal shape, and the space ring may be provided in a shape corresponding to the polygonal shape of the rim portion.

In addition, the rim portion, a first upward inclined surface inclined upward from the upper surface of the seating body; and a second upwardly inclined surface provided on an outer periphery of the first upwardly inclined surface and inclined upward.

In addition, the space ring is provided in a shape corresponding to the first upper inclined surface and the second upper inclined surface, the upper movement limiting portion is seated on the edge portion; and a boundary portion bent in one direction from the upward movement limiter may be provided.

In addition, the main body, a seating portion on which the seating body is mounted; a groove portion provided on a periphery of the seating portion and in which the edge portion is seated; and a portion to be coupled provided on a peripheral portion of the groove portion to which the fixed cover is coupled may be provided.

In addition, the rim portion may be provided with an air diffuser including a plurality of membrane protrusions protruding from one side of the to-be-coupled portion is in contact.

In addition, there may be provided an air diffuser in which a plurality of first sealed spaces are formed between the edge portion and the to-be-coupled portion by a plurality of membrane protrusions.

In addition, the groove portion may be provided with a diffuser including a plurality of body projections protruding from one side of the rim portion is in contact.

In addition, there may be provided an air diffuser in which a plurality of second sealed spaces are formed between the groove portion and the edge portion by the plurality of body protrusions.

In addition, the supply hole is provided in the center of the seating portion, the seating portion, is provided on a peripheral portion of the supply hole, the first protrusion protruding from one side of the seating portion; and a second protrusion provided on a peripheral portion of the first protrusion and protruding from one side of the seating unit.

In addition, the mounting portion may be provided on a peripheral portion of the second protrusion, and further comprising a grid protrusion protruding from one side of the seating portion in a lattice shape may be provided.

In addition, a protrusion height of the first protrusion may be higher than a protrusion height of the second protrusion, and a protrusion height of the second protrusion may be higher than a protrusion height of the grid protrusion.

In addition, the fixed cover, the cover portion for covering at least a portion of the space ring from the upper side; and a coupling part bent from the cover part and provided to be coupled with the outer periphery of the main body may be provided.

In addition, there may be provided a diffuser in which the main body and the fixing cover are coupled through screw coupling.

The air diffuser according to the embodiments of the present invention has the advantage of being able to prevent separation of the membrane during use while being easy to combine and separate.

In addition, it is possible to improve the efficiency of the air diffuser by preventing air leakage and backflow of wastewater.

1 is a schematic cross-sectional view of a coupling part of a conventional membrane type diffuser.
2 is a schematic perspective view of a membrane type diffuser according to an embodiment of the present invention.
3 is a schematic exploded perspective view of the membrane type diffuser of FIG. 2 .
4 is a cross-sectional view of the membrane type diffuser of FIG. 2 .
FIG. 5 is an enlarged view of part A of FIG. 4 .
FIG. 6 is an enlarged view of part B of FIG. 4 .

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

In addition, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

FIG. 2 is a schematic perspective view of the membrane type diffuser according to an embodiment of the present invention, FIG. 3 is a schematic exploded perspective view of the membrane type diffuser of FIG. 2, and FIG. 4 is a cross-sectional view of the membrane type diffuser of FIG. and FIG. 5 is an enlarged view of part A of FIG. 4 , and FIG. 6 is an enlarged view of part B of FIG. 4 .

The diffuser 1 according to an embodiment of the present invention may be understood as a device for increasing dissolved oxygen by dispersing the air supplied from the air supply pipe into fine bubbles in the water by being coupled to an air supply pipe in water.

2 to 6 , the air diffuser 1 includes a body 2 connected to an air supply pipe, a membrane 3 seated on the body 2 , and an edge portion 32 of the membrane 3 . It may include a space ring 4 to be seated on, and a fixing cover 5 for fixing the seating state of the body 2, the membrane 3 and the space ring 4 .

The air diffuser 1 of the present embodiment can prevent the membrane 3 from being separated or torn by disposing the space ring 4 between the membrane 3 and the fixed cover 5 .

The air diffuser 1 of the present embodiment can prevent the membrane 3 from being separated or torn by disposing the space ring 4 between the membrane 3 and the fixed cover 5 . In addition, the rim portion 32 that will form the circumference of the membrane 3 may be formed to have a shape that does not fall out of the diffuser 1 . The main body 2 may be connected to a separate air supply pipe to discharge air supplied from the air supply pipe to one side of the membrane 3 . The main body 2 has a seating portion 21 on which the membrane 3 is mounted, a groove 22 provided on the periphery of the seating portion 21, and a fixed cover ( 5) may include a to-be-coupled part 23 to which it is coupled, and a connection part 24 provided to be connectable to the air supply pipe.

The seating part 21 is provided in a circular plate shape, and the membrane 3 may be mounted on the upper side. A supply hole 211 may be provided in the center of the seating part 21 . The supply hole 211 may be formed to pass through the connection part 24 and communicate with the connected air supply pipe. Accordingly, the air supplied from the air supply pipe may be discharged in one direction through the supply hole 211 . Here, the one direction may mean a direction opposite to the direction in which the connection part 24 of the main body 2 is formed, and when the direction in which the connection part 24 extends from the seating part 21 is viewed in the downward direction, the one direction is the upper side. direction can be. That is, the supply hole 211 may discharge the air supplied from the air supply pipe toward the membrane 3 seated on the seating part 21 . At this time, a plurality of vent holes 311 are formed in the membrane 3 , and the supplied air may pass through the vent holes 311 to be dispersed into fine bubbles. By the fine bubbles dispersed as described above, the amount of dissolved oxygen in water may be increased.

Meanwhile, a first protrusion 213 and a second protrusion 215 protruding upward from the upper surface of the seating part 21 may be provided on the upper peripheral portion of the supply hole 211 . Specifically, the first protrusion 213 may be provided on the upper peripheral portion of the supply hole 211 , and the second protrusion 215 may be provided on the outer peripheral portion of the first protrusion 213 . The lattice protrusions 217 protruding in a grid shape from the upper surface of the seating part 21 may be formed on the remaining portion of the seating part 21 where the 213 and the second protrusion 215 are not formed. The lattice protrusion 217 may prevent the upper surface of the seating portion 21 and the lower surface of the seating body 31 from contacting as a whole, thereby preventing the main body 2 and the membrane 3 from being in close contact. Accordingly, the air discharged from the supply hole 211 may be evenly spread throughout the seating body 31 .

In this case, the protrusion height of the first protrusion 213 may be higher than the protrusion height of the second protrusion 215 , and the protrusion height of the second protrusion 215 may be higher than or equal to the protrusion height of the grid protrusion 217 . Accordingly, when the air from the supply hole 211 passes the first protrusion 213 , the air can be stably spread throughout the seating portion 21 , so that the air can be easily dispersed throughout the membrane 3 . have.

The groove part 22 may be provided in an edge portion (eg, a ring shape) of the seating part 21 , and may be provided in a shape that is recessed from the upper surface of the seating part 21 . The edge portion 32 of the membrane 3 may be seated in the groove portion 22 . A detailed description thereof will be given later.

The to-be-engaged part 23 is provided on the outermost peripheral part of the main body 2 and is provided so that it can engage with the fixed cover 5. As shown in FIG. At this time, the to-be-engaged part 23 and the fixed cover 5 through the screw coupling of the screw thread 231 formed on the outer periphery of the engaged part 23 and the screw thread 511 formed on the inner periphery of the fixed cover 5 . ) can be combined.

The connection part 24 is connected to an air supply pipe for supplying air, and allows the air supply pipe and the supply hole 211 to communicate. Accordingly, the air supplied from the air supply pipe may be discharged through the supply hole 211 .

Specifically, a thread may be formed on the outer periphery of the connection part 24 , and the thread formed on the connection part 24 may be screwed with a thread formed on the inner periphery of the air supply pipe. Thereby, the connection part 24 and the air supply pipe may be connected.

On the other hand, a separate cap (not shown) may be coupled to the screw thread formed in the connection part 24 . The cap may be coupled to the connection part 24 to protect the connection part 24 when the air diffuser 1 is stored.

The membrane 3 is configured to generate air bubbles through the vent 311 , and may be made of a material having elasticity. For example, the material of the membrane 3 may be one of EPDM rubber, urethane rubber, and silicone rubber, preferably silicone rubber having excellent elasticity and durability.

The membrane 3 includes a seating body 31 having a ventilation hole 311 formed therein and being seated on the seating portion 21, and a rim portion ( 32) may be included. At this time, the edge portion 32 may have a greater thickness than the seating body 31 in cross-section, and may be seated in the groove portion 22 recessed downward than the seating portion 21 .

In this case, the groove portion 22 formed in the body 2 may include a body protrusion 221 formed on one side to which the edge portion 32 is in contact, and the edge portion 32 of the membrane 3 is to be coupled. The part 23 may include a membrane protrusion 324 formed on one side that is in contact. That is, the body protrusion 221 may protrude upward from the groove part 22 , and the membrane protrusion 324 may protrude outward from the outer periphery of the rim part 22 .

The body protrusion 221 and the membrane protrusion 324 are formed in the shape of a labyrinth seal, so that air leakage and backflow of wastewater can be prevented as much as possible. In addition, the body protrusion 221 and the membrane protrusion 324 may serve as a wedge for preventing the membrane 3 from being separated.

The body protrusion 221 and the membrane protrusion 324 may be formed in plural, preferably 2 to 6, respectively. In this case, the plurality of body protrusions 221 may be disposed to be spaced apart from each other with respect to the radial direction of the body 2 . That is, the plurality of body protrusions 211 may be disposed to be spaced apart from each other in a direction away from the supply hole 211 of the body 2 . In addition, the plurality of membrane protrusions 324 may be disposed to be spaced apart from each other in the vertical direction along the outer periphery of the edge portion 32 . In the present embodiment, the number of the main body protrusion 221 and the membrane protrusion 324 is illustrated as an example in which three are provided, respectively, but the number of the main body protrusion 221 and the membrane protrusion 324 is not limited thereto. As another example, the number of body protrusions 221 may be two, and the number of membrane protrusions 324 may be four.

Meanwhile, referring to FIG. 5 , a plurality of first sealed spaces 326 are formed between the outer periphery of the rim portion 32 and the inner surface of the to-be-coupled portion 23 by the plurality of membrane protrusions 324 provided. can At this time, the plurality of membrane protrusions 324 are disposed to be spaced apart from each other in the vertical direction on the outer periphery of the rim portion 32 , and the plurality of first sealed spaces 326 have the rim portion 32 vertically along the outer periphery. direction can be placed.

In addition, a plurality of second sealed spaces 327 may be formed between the lower surface of the edge portion 32 and the groove portion 22 by the plurality of body protrusions 221 provided. At this time, the plurality of body protrusions 221 are arranged to be spaced apart from each other in a direction away from the supply hole 211 of the main body 2 , and the plurality of second sealed spaces 327 are formed from each other in the radial direction of the body 2 . They may be spaced apart.

On the other hand, the edge portion 32 of the membrane 3 may be provided in a polygonal shape preset to prevent separation between the space ring 4 and the body 2 to be described later. Specifically, the edge portion 32 is a first upper inclined surface 321 and a second upper inclined surface 322 inclined in an upward direction from the upper surface of the seating body 31, and the lower surface of the seating body 31 in a downward direction. It may include a downward inclined surface 323 inclined to the. In this way, the edge portion 32 forms a portion inclined upward through the first upper inclined surface 321 and the second upper inclined surface 322 and at the same time the portion inclined downward through the lower inclined surface 323 at the same time. can be formed In addition, by pressing the rim portion 32 having such a shape with a space ring 4 to be described later, the membrane 3 can be prevented from being separated from or torn from the air diffuser 1 .

In addition, it can be understood that the edge portion 32 is provided with a greater cross-sectional thickness than the seating body 31 , and the edge portion 32 of the membrane 3 is recessed than the seating portion 21 of the main body 2 . It can be seated in the groove portion (22).

Specifically, a third corresponding inclined surface 222 inclined at an angle corresponding to the lower inclined surface 323 is provided at the boundary between the seating portion 21 and the groove portion 22 , and the lower inclined surface 323 is the third corresponding inclined surface. (222) can be stably seated.

Meanwhile, an upward inclination angle of the first upwardly inclined surface 321 with respect to a vertical line may be smaller than an upwardly inclined angle of the second upwardly inclined surface 322 . Accordingly, the edge portion 32 may be more firmly fixed between the body 2 and the space ring 4 .

The space ring 4 may be formed in a ring shape surrounding the edge portion 32 of the membrane 3 . The space ring 4 is seated on the edge portion 32 of the membrane 3 to prevent the edge portion 32 of the membrane 3 from being separated between the body 2 and the spacer ring 4 . The space ring 4 is disposed between the membrane 3 and the fixing cover 5 , and may be understood as a configuration capable of firmly fixing the membrane 3 . Specifically, when only the membrane is disposed between the conventional body and the fixed cover, separation or tearing of the membrane 3 may occur, but in this embodiment, the space ring 4 is additionally included, so that the membrane 3 It can be prevented from detaching or tearing.

The space ring 4 is seated on the upper side of the rim part 32 and restricts the upward movement of the rim part 32, the upward movement limiting part 41, and the boundary part bent upward from the upward movement limiting part 41. (42) may be included.

The upward movement limiting part 41 may be provided in a shape corresponding to the edge part 32 . Specifically, the upward movement limiter 41 corresponds to the first corresponding inclined surface 411 inclined upward to correspond to the first upper inclined surface 321 and the second corresponding to the second inclined upward to correspond to the second upper inclined surface 322 . It may include an inclined surface 412 . Accordingly, the space ring 4 may be stably seated on the upper side of the edge portion 32 .

In addition, the space ring 4 may be provided with a plurality of reinforcing parts 43 provided at preset intervals between the upward movement limiting part 41 and the boundary part 42 .

A plurality of boundary portions 42 are provided between the ring-shaped upward movement limiting portion 41 and the boundary portion 42, so that when the membrane 3 applies a force to the space ring 4 upward, the space ring 4 This can be prevented from being damaged.

The fixed cover 5 is bent from the cover part 52 and the cover part 52 that can cover at least a part of the space ring 4, and the coupling part 51 provided to be engageable with the to-be-engaged part 23. may include.

In a state in which the fixed cover 5 is coupled to the main body 2 , the cover part 52 of the fixed cover 5 is disposed above the upward movement limiting part 41 , so that the membrane 3 is attached to the main body 2 . Since it is seated and the state in which the space ring 4 is seated on the edge part 32 is fixed, the upward movement limiting part 41 may limit the upward movement of the edge part 32 .

On the other hand, the end of the cover portion 52 may face or at least partially contact one side of the boundary portion of the space ring 4 . Thereby, it is possible to maintain a state in which the space ring 4 is stably placed between the membrane 3 and the fixed cover 5 .

Hereinafter, the operation and effect of the diffuser 1 according to an embodiment of the present invention having the above configuration will be described.

The air diffuser 1 according to an embodiment of the present invention includes a body 2 connected to an air supply pipe to which air is supplied to enable communication between the air supply pipe and the supply hole 211, and is seated on the body 2, The membrane 3 for generating air bubbles through the vent 311, the space ring 4 for limiting the upward movement of the rim portion 32 of the membrane 3, the body 2 and the membrane 3, It may include a fixing cover (5) for fixing the seating state of the space ring (4).

First, the main body 2 may be connected to a separate air supply pipe. A plurality of connection parts may be provided in one air supply pipe, and the air diffuser 1 may be coupled to each connection part. That is, air may be supplied to the plurality of air diffusers 1 through one air supply pipe. At this time, the air supplied from the air supply pipe may be provided as compressed air to pass through the small sized vent 311 .

The membrane 3 is seated on the body 2 , and the supply hole 211 may discharge compressed air toward the lower surface of the membrane 3 . A plurality of vent holes 311 may be formed in the membrane 3 , and air is discharged from the lower side of the membrane 3 to the upper side of the membrane 3 through the vent 311 . can cause

The edge portion 32 of the membrane 3 is provided in a polygonal shape, and may be seated in the groove portion 22 of the main body 2 . The groove portion 22 may be provided with a third corresponding inclined surface 222 having a shape corresponding to the lower inclined surface 323 of the edge portion 32 , and the lower inclined surface 323 is stably disposed on the third corresponding inclined surface 222 . can be seated

On the other hand, one or more main body projections 221 protruding upward may be provided on the lower surface of the groove portion 22 , and one or more membrane projections 324 are provided on the outer periphery of the rim portion 32 in contact with the main body 2 . may be provided. Thereby, air leakage and backflow of wastewater can be prevented, and separation of the membrane 3 can also be prevented.

In addition, a plurality of first sealed spaces 326 may be formed between the rim portion 32 and the to-be-coupled portion 23 by the membrane protrusion 324 , and the rim portion 32 by the body protrusion 221 . A plurality of second sealed spaces 327 may be formed between and the groove portion 22 . That is, the first closed space 326 may be separated into a plurality by the plurality of membrane protrusions 324 , and the second closed space 327 may be separated into a plurality by the plurality of body protrusions 221 .

The air diffuser 1 according to an embodiment of the present invention has a plurality of first enclosed spaces 326 and a plurality of second enclosed spaces 327 . ) can be prevented from entering the

Specifically, pressure may be applied to the fixed cover 5 due to the compressed air discharged from the supply hole 211 . In this case, the screw coupling between the fixed cover 5 and the main body 2 may be loosened to some extent, and a predetermined amount of wastewater may be introduced between the fixed cover 5 and the space ring 4 . In this case, it is possible to prevent the inflow of wastewater into the diffuser 1 by trapping the wastewater in a state where the first enclosed space 326 accommodates the introduced wastewater. In addition, since a plurality of the first sealed space 326 is provided, there is an advantage in that the inflow of wastewater can be prevented step by step a plurality of times. Specifically, the plurality of first enclosed spaces 326 can sequentially trap and seal wastewater from the first enclosed space 326 disposed on the uppermost side to the first sealed space 326 disposed on the bottom side, It is possible to limit the inflow of wastewater in stages.

Meanwhile, even after the inflow of wastewater is primarily prevented through the plurality of first enclosed spaces 326 , the inflowing wastewater may still be introduced. In this case, the inflow of wastewater through the second sealed space 327 may be prevented secondary. In addition, since a plurality of second enclosed spaces 327 are provided, prevention of inflow of wastewater through the second closed space 327 may be performed step by step a plurality of times. Specifically, the plurality of second sealed spaces 327 are sequentially from the second sealed space 327 disposed on the outermost side with respect to the radial direction of the main body 2 to the second sealed space 327 disposed on the innermost side. Since wastewater can be confined and sealed, the inflow of wastewater can be restricted in stages.

The edge portion 32 may include a first upwardly inclined surface 321 and a second upwardly inclined surface 322 inclined upward from the upper surface of the seating body 31 . In addition, the upward movement limiting part 41 of the space ring 4 seated on the upper side of the edge part 32 is a first corresponding inclined surface having the same inclination angle as the first upper inclined surface 321 and the second upper inclined surface 322 . 411 and a second corresponding inclined surface 412 may be included. Accordingly, the space ring 4 may be stably seated on the edge portion 32 .

As described above, in a state where the membrane 3 is seated on the main body 2 and the space ring 4 is seated on the edge part 32 of the membrane 3, the fixing cover 5 is to be coupled to the main body 2 . can At this time, since the cover part 52 of the fixed cover 5 covers the space ring 4 from the upper side and is fixed, the membrane 3 is connected to the body 2 and the space ring by the compressed air discharged from the supply hole 211 . (4) can be prevented from being separated from each other.

Specifically, when compressed air is supplied through the supply hole 211 , the membrane 3 may be elastically deformed by pressure to be spaced apart from the upper surface of the body 2 by a predetermined distance. At this time, the rim portion 32 of the membrane 3 is fixed to the body 2 by the space ring 4 and the fixing cover 5 , and the membrane 3 may be elastically deformed into an upwardly convex shape. . At this time, the separation of the membrane 3 by the space ring 4 can be effectively prevented.

Meanwhile, a portion in which the upper surface of the membrane 3 and the boundary portion 42 are in contact may be formed in a rounded shape. Thereby, when the membrane 3 is elastically deformed convexly upward and the end of the boundary portion 42 is pressed, damage to the membrane 3 can be prevented.

On the other hand, since the cover 5 is coupled to the body 2 through screw coupling, there is an advantage that the cover 5 can be easily separated from the body 2 when the membrane 3 is replaced. Since the space ring 4 is provided between the membrane 3 and the cover 5, even if vibration during use or the screw coupling between the outer cover 5 and the main body 2 is slightly loosened, the space ring 4 Separation of the membrane 3 can be prevented.

Although the diffuser device 1 according to the embodiment of the present invention has been described as a specific embodiment, this is merely an example, and the present invention is not limited thereto, and has the widest scope according to the basic idea disclosed in the present specification. should be interpreted A person skilled in the art may implement a pattern of a shape not specified by combining and substituting the disclosed embodiments, but this also does not depart from the scope of the present invention. In addition, those skilled in the art can easily change or modify the disclosed embodiments based on the present specification, and it is clear that such changes or modifications also fall within the scope of the present invention.

1: aeration device
2: main body 21: seating part
211: supply hole 213: first protrusion
215: second protrusion 217: lattice projection
22: groove 221: body projection
222: third corresponding inclined surface 23: to-be-engaged part
231: thread 24: connection
3: Membrane 31: Seating body
311: ventilation hole 32: edge portion
321: first upward slope 322: second upward slope
323: downward slope 324: membrane protrusion
4: space ring 41: upward movement limiter
411: first corresponding inclined surface 412: second corresponding inclined surface
42: boundary part 5: fixed cover
51: coupling portion 511: thread
52: cover part

Claims (15)

a main body that can be connected to the air supply pipe and has a supply hole to discharge the air supplied from the air supply pipe;
a membrane seated on the body, provided with an elastic material, and including a plurality of ventilation holes;
a space ring provided between the body and the membrane to limit upward movement of at least a portion of the membrane; and
and a fixing cover coupled to the main body to fix the seating state of the main body, the membrane, and the space ring,
The membrane is
a seating body in which the ventilation holes are formed; and
It is provided on the periphery of the seating body, including a rim portion having a greater thickness than the seating body,
The space ring is seated on the upper side of the rim portion to limit the upward movement of the rim portion,
The rim portion,
a first upward inclined surface inclined upward from the upper surface of the seating body; and
a second upward sloping surface provided on the outer periphery of the first upward sloping surface and inclined upward and having an upward inclination angle greater than that of the first upward sloping surface;
The space ring is
It is provided in a shape corresponding to the first upper inclined surface and the second upper inclined surface, is seated on the edge portion, and corresponds to the first corresponding inclined surface and the second upper inclined surface inclined upward to correspond to the first upper inclined surface. an upward movement limiting unit including a second corresponding inclined surface inclined upward as much as possible; and
and a boundary part bent in one direction from the upward movement limiting part,
The body is
a seating part on which the seating body is mounted;
a groove portion provided on a periphery of the seating portion and in which the edge portion is seated; and
It is provided on the periphery of the groove portion and includes a to-be-coupled portion to which the fixed cover is coupled,
The supply hole is provided in the center of the seating portion,
The seating part,
a first protrusion provided on a peripheral portion of the supply hole and protruding from one side of the seating portion; and
It is provided on the periphery of the first protrusion and includes a second protrusion protruding from one side of the seating part,
The mounting portion further includes a grid protrusion provided on a peripheral portion of the second protrusion and protruding in a grid shape from one side of the seating portion. delete According to claim 1,
The edge portion is provided in a polygonal shape,
The space ring is provided in a shape corresponding to the polygonal shape of the rim portion. delete delete delete According to claim 1,
The periphery portion includes a plurality of membrane protrusions protruding from one side that the to-be-coupled portion is in contact with. 8. The method of claim 7,
A plurality of first closed spaces are formed between the edge portion and the to-be-coupled portion by a plurality of membrane protrusions. According to claim 1,
The diffuser device including a plurality of body projections protruding from one side of the groove portion in contact with the edge portion. 10. The method of claim 9,
A plurality of second closed spaces are formed between the groove portion and the edge portion by the plurality of body projections. delete delete According to claim 1,
The protrusion height of the first protrusion is higher than the protrusion height of the second protrusion,
A protrusion height of the second protrusion is higher than a protrusion height of the grating protrusion. According to claim 1,
The fixed cover,
a cover part covering at least a portion of the space ring from an upper side; and
and a coupling part bent from the cover part and provided to be coupled with the outer periphery of the main body. According to claim 1,
The main body and the fixing cover are coupled through screw coupling.

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