KR102310239B1 - Air injection type multi-purpose agitator - Google Patents

Abstract

The present invention relates to an air injection type multi-purpose stirring device, the present invention is a cam structure is applied to compress air in the air flowing in from the outside, through the inside of the hollow rotating shaft of the mixing unit and the inside of the impeller, compressed into the air discharge hole of the impeller By including an air compression unit for discharging air, the air in the atmosphere is introduced through the air compression unit to which a simple cam structure is applied, and after compression, the compressed air is discharged through the air discharge hole of the impeller. Air can be supplied to the water at the same time as the water flow is mixed, and through this, the stirring efficiency can be maximized by supplying air into the water. It can play a role in increasing the activity of microorganisms by delivering oxygen to the In fish farms such as rivers and reservoirs, it facilitates convection so that sediment does not accumulate on the bottom, and at the same time implements aeration in the water to prevent water decay while activating aquatic life to create an aquatic ecological environment. It can be used for multiple purposes, such as to optimize

Description

Air injection type multi-purpose agitator

The present invention relates to an air injection type multi-purpose stirring device, and more particularly, a cam structure is applied to compress air in the air flowing in from the outside, and through the inside of the hollow rotating shaft of the mixing unit and the inside of the impeller, it is compressed into the air discharge hole of the impeller. By including an air compression unit for discharging the compressed air, the air in the atmosphere is introduced through the air compression unit to which a simple cam structure is applied, and after compression, the compressed air is discharged through the air discharge hole of the impeller. Air can be supplied to the water at the same time as the mixing of the water in the water, thereby maximizing the stirring efficiency through supplying air into the water. It can play a role in increasing the activity of microorganisms by delivering oxygen to the water, and in water purification, it can be quickly mixed with chemicals to maximize the mixing efficiency, and at the same time, oxygen is supplied through air supply to improve the taste of purified water. In fish farms such as rivers and reservoirs, it facilitates convection so that sediment does not accumulate on the bottom, and at the same time implements aeration in the water to prevent water decay and activates aquatic life by activating aquatic life. It relates to an air injection type multi-purpose stirring device that can be used for multiple purposes, such as to optimize the environment.

In general, the role of an agitator in a water purification plant or a sewage treatment plant is very important, and depending on what type of impeller is applied to the agitator, the water quality of the water to be treated is greatly affected.

And it occupies an important part in terms of problems that may occur during operation of the stirrer or in terms of operation and management.

The impeller in such a conventional water treatment agitator transfers the largest velocity energy to the mixed solution in the stirring tank near the tip, which is the tip of the blade, and delivers the lowest velocity energy at the root of the blade located on the hub side in the stirring tank. transferred to the mixture.

That is, the impeller has a problem in that the speed energy deviation is large between the tip portion and the root portion of the blade, so that the stirring energy cannot be uniformly transmitted to the mixed solution in the stirring tank.

Accordingly, there is a problem in that water treatment efficiency is lowered because uniform stirring is not made from the tip of the blade having the largest velocity energy to the root part of the blade having the smallest velocity energy.

On the other hand, when the blade rotates, as the mixed solution in the stirring tank rides the blade and passes to the rear side of the blade, the mixed solution is not stirred even to the rear side of the blade adjacent to the rear surface of the blade dead zone (dead zone) zone) was generated, and there was a problem that the water treatment efficiency was further reduced.

In addition, there is a dead zone in which the mixed solution in the stirring tank is not stirred even at the corner part of the stirring tank where the length of the blade does not reach. Since the rigidity of the agitator must be significantly improved and the output of the driving unit must also be increased, there is a problem in that the manufacturing cost of the agitator increases as well as the maintenance cost.

Moreover, the conventional stirring device applied as a stirrer including a blade as described above is simple stirring, that is, an additional air supplying separate air in water in addition to the simple mixing function while only rotation of the impeller for stirring is made in water. There was a problem that functions and the like could not be implemented.

To this end, a stirring device to which an additional configuration for separately supplying air from the outside to the water is applied has been developed and used.

However, in the stirring device to which the additional configuration for the separate air supply as described above is applied, an air supply means operating for supplying air from the outside, for example, an air supply means such as a blower or a diffuser, must be installed, so the configuration of the device is different. There was a problem in that it was complicated and the production cost significantly increased.

Therefore, it is possible to supply air to the water at the same time as mixing while allowing air in the atmosphere to be compressed by applying a simple configuration and then exhausting the compressed air through the impeller. It can play a role in increasing the activity of microorganisms, and in water purification, it can be quickly mixed with chemicals to maximize mixing efficiency, and at the same time, oxygen is supplied through air supply to improve the taste of purified water. In fish farms such as rivers and reservoirs, it facilitates convection so that sediment does not accumulate on the bottom, and at the same time implements aeration in the water to prevent water decay and activates aquatic organisms to optimize the aquatic ecological environment. There is a need for research and development on a multi-purpose stirring device that can be used for multiple purposes.

The Republic of Korea Public Utility Model No. 1999-0035455 was published on Sep. 06, 1999. Registered in Republic of Korea Utility Model No. 0205118 2000.09.21. Registered Republic of Korea Patent No. 1566240 2015.10.30. Registered Korea Patent No. 1655239 2016.09.01. Registered Republic of Korea Patent No. 1791143 on October 23, 2017. Registered Republic of Korea Patent No. 2030964 2019.10.02.

In order to solve the above problems, the present invention has a cam structure is applied to compress air in the air flowing in from the outside, so that the compressed air is discharged through the inside of the hollow rotating shaft of the mixing unit and the inside of the impeller to the air discharge hole of the impeller. By including an air compression unit that An object of the present invention is to provide an air-injected multi-purpose agitator capable of supplying air to the water at the same time, and thereby maximizing the stirring efficiency through supplying air into the water.

In addition, in the technology according to the present invention, as the air compression unit to which a simple cam structure is applied is applied, the air in the atmosphere is introduced through the air compression unit and compressed, and then the compressed air is discharged through the air discharge hole of the impeller while the main body By allowing air to be supplied to the water at the same time as the mixing of the water flow in the water inside the tank, it can play a role in improving the activity of microorganisms by delivering oxygen to the water during wastewater treatment This can play a role in maximizing mixing efficiency and improving the taste of purified water as oxygen is supplied through air supply. At the same time, the purpose is to enable it to be used for multiple purposes, such as to optimize the aquatic ecological environment by activating aquatic organisms while preventing water decay by implementing aeration in the water.

The present invention for achieving the above object is as follows. That is, the air injection type multi-purpose stirring device according to the present invention includes a main body tank in which the water to be treated, wastewater or water, is accommodated therein, and is formed in a cylindrical or polygonal tubular housing to introduce the water to be treated at a certain level from the outside; An impeller that is disposed at a certain distance upward from the inner bottom of the main tank and mixes the water flow in the water inside the main tank through rotation, the inner space is empty in the shape of a wing, and has a plurality of air outlet holes on the outer surface, and a hollow having a certain length a mixing unit composed of a rotating hollow shaft provided as a shaft type of a plurality of impellers along the periphery of the lower end so that the inner space communicates with each other; The lower end of the central part is connected to the upper end of the hollow rotating shaft of the mixing unit by a connector, and the air is compressed while rotating in a cam structure inside, and the compressed air is discharged through the rotating hollow shaft through the connector to the air outlet of the impeller. compression unit; and a drive unit that is installed on the upper part of the air compression unit, is shaft-connected to the upper center of the air compression unit, and rotates the rotating hollow shaft and the impeller of the mixing unit while rotating the cam structure part inside the air compression unit through driving. It consists of a composition comprising

Here, the air compression unit is provided as a cylindrical case with an open top and a through hole for shaft installation in the center of the bottom surface, and the lower end is fixedly installed at a certain distance upward through an installation stand in the upper center of the main tank, and the circumference A pair of air inlets are formed opposite to the direction 180 degrees to allow air in the air to flow in from the outside through the air inlets. A compression housing in which a groove is recessed, a compression cover that covers and seals the open upper part of the compression housing, and a cam shape having a predetermined height through which an insertion hole is formed in the center is rotatably installed inside the compression housing, A rotary compression cam through which an air guide hole is formed to communicate with the insertion hole from the outer surface of the center in the vertical direction on both sides in the circumferential direction, and the upper and lower ends are fixed to protrude a certain length while being inserted through the insertion hole of the rotary compression cam The rotary compression cam is rotatably installed in the compression housing, and it is composed of a drive connection part, a cam connection part, and a lower connection part that extend outwardly a number of times from the top to the bottom, and the upper end of the drive connection part is driven by the driving force from the drive unit. It is connected to the drive shaft of the drive unit so that this is transmitted, and a bearing is interposed so that the lower end of the drive connection part can idle in the center of the compression cover and is installed, and the flange protruding outward at the bottom of the cam connection part is the lower part of the rotation compression cam through the coupling means. It is coupled and fixed, and the upper end of the lower connection part is installed with a bearing interposed so that it can idle at the center of the bottom of the compression housing. The air guide communication hole is formed through and communicates with the inner end of the air guide communication hole, communicates downward from the inner center of the upper and lower center of the cam connection part, and expands obliquely from the inside of the upper part of the lower connection part to the outside and then in the expanded state. It is vertically penetrated to reach the lower end of the lower connection part to form an air guide space, and a connector is interposed at the top of the hollow rotation shaft of the mixing unit to The shaft and the compression housing in which the upper part of the connector in which the upper end of the hollow rotary shaft is inserted and connected for a certain length inside the lower inner side of the air guide space of the lower connection part is tightly inserted and connected by a certain length so that the inside of the idle shaft and the air guide space are connected in communication with each other It is installed on both sides and selectively opens and closes the air guide hole when the rotary compression cam rotates in a state where the end of the elastic adhesion piece that is elastically protruded into the compression housing through the guide groove of the compression housing is in elastic contact with the outer surface of the rotary compression cam. The air introduced through the air inlet is compressed when the rotary compression cam rotates and is guided to the air guide hole, and is discharged to the air discharge hole of the impeller via the air guide communication hole, the air guide space, and the inside of the hollow rotating shaft. It is preferable to include

At this time, the elastic adhesion member is fixedly installed on both outer sides of the compression housing, and one end from one side of the elastic adhesion housing and the elastic adhesion housing which is internally installed so that the elastic spring is elastically deformed and returned by a predetermined length is in close contact with the elastic spring, The other end is guided to move and return a certain distance by the guide groove of the compression housing while protruding a certain length from the elastic sealing housing, while the other end is supported in close contact with the outer surface of the rotation compression cam with elastic force and selectively It is preferable to include an elastic contact piece for opening and closing the air guide hole during rotation.

Moreover, the connector is provided in a hollow tubular shape, has a diameter corresponding to the outer diameter of the hollow rotation shaft from the bottom and is recessed for a certain length upwards so that the upper end of the hollow rotation shaft is inserted and connected by a certain length from the center of the upper end of the shaft insertion part A communication hole having a diameter smaller than the outer diameter of the hollow rotating shaft and consisting of an air communication guide penetrating to the upper end is formed vertically stepwise through the communication hole, and the air guide hole of the rotary compression cam and the air guide of the shaft through the communication hole The air flowing into the air guide space sequentially through the communication hole is guided into the hollow rotary shaft, while the upper end of the hollow rotary shaft upper end is inserted and connected for a certain length inside the lower inner side of the air guide space of the lower connection part for the shaft. A sealing member is further installed on the outer surface of the upper part that is inserted and connected to the lower inner side of the air guide space of the lower connector for the connector so that it can be inserted and connected as closely as possible, and the lower peripheral portion of the lower periphery of the shaft insert of the connector is inserted with a hollow rotating shaft It is preferable to be fixed by welding with the outer surface of the hollow rotating shaft in a connected state.

The effect of the air injection type multi-purpose stirring device according to the present invention will be described as follows.

First, a simple cam structure by including an air compression unit to which a cam structure is applied to compress air in the atmosphere flowing in from the outside so that the compressed air is discharged to the air discharge hole of the impeller through the inside of the hollow rotation shaft of the mixing unit and the inside of the impeller Air can be supplied to the water at the same time as the water flow is mixed in the water inside the body tank while the compressed air is discharged through the air discharge hole of the impeller after being compressed by introducing the air in the atmosphere through the air compression unit to which is applied. Through this, it is possible to maximize the stirring efficiency by supplying air into the water.

Second, as the air compression unit to which a simple cam structure is applied is applied, the air in the atmosphere is introduced through the air compression unit and compressed, and then the compressed air is discharged through the air discharge hole of the impeller. By allowing air to be supplied to the water at the same time as mixing, it can play a role in delivering oxygen to the water during wastewater treatment to increase the activity of microorganisms. At the same time, oxygen is supplied through the air supply, and it can play a role in improving the taste of purified water. It can be used for multiple purposes, such as preventing water decay and activating aquatic organisms to optimize the aquatic ecological environment.

1 is a perspective view showing an air injection type multi-purpose stirring device according to the present invention.
Figure 2 is a front cross-sectional view showing an air injection type multi-purpose stirring device according to the present invention in use.
3 is a front cross-sectional view showing a structure in which compressed air is guided into the hollow rotating shaft of the mixing unit from the air compression unit, which is the main part of the air injection type multi-purpose stirring device according to the present invention.
Figures 4a and 4b is a plan sectional view showing the internal structure of the air compression unit, which is the main part of the air injection type multi-purpose stirring device according to the present invention.
Figures 5a and 5b is an air injection type multi-purpose stirring device according to the present invention, a main part plane and front view showing a rotation compression cam which is a main part of an air compression unit.
6 is a front elevational view showing the main part of the shaft, which is the main part of the air compression unit, of the air injection type multi-purpose stirring device according to the present invention.
Figure 7 is a main part separation perspective configuration diagram showing an elastic adhesion member, which is a main part of an air compression unit, among the air injection type multi-purpose stirring device according to the present invention.

Hereinafter, a preferred embodiment of the air injection type multi-purpose stirring device according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective configuration diagram showing an air injection type multi-purpose stirring device according to the present invention, Figure 2 is a front cross-sectional view showing an air injection type multi-purpose stirring device according to the present invention in use.

3 is a front cross-sectional view showing a structure in which compressed air is guided from the air compression unit, which is the main part of the air injection type multi-purpose stirring device according to the present invention, to the inside of the hollow rotation shaft of the mixing unit.

Figures 4a and 4b is a planar cross-sectional view showing the internal structure of the air compression unit, which is the main part of the air injection type multi-purpose stirring device according to the present invention.

5A and 5B are plan and front views illustrating the main part of the rotating compression cam which is the main part of the air compression unit among the air injection type multi-purpose stirring device according to the present invention.

6 is a front elevational view showing the main part of the shaft, which is the main part of the air compression unit, of the air injection type multi-purpose stirring device according to the present invention.

7 is a perspective view showing the main part of the air-injecting multi-purpose stirring device according to the present invention, showing the elastic adhesive member, which is the main part of the air compression unit.

As shown in Figures 1 to 7, the air injection type multi-purpose stirring device according to a preferred embodiment of the present invention accommodates water to be treated, wastewater or water, and mixes the received water to be treated through stirring while mixing with air in water. It is a stirring device that can be used for multiple purposes while improving the stirring efficiency by injecting it, and when broadly classified, it comprises a main tank 100 , a mixing unit 200 , an air compression unit 400 , and a driving unit 500 .

Specifically, the main body tank 100 accommodates wastewater or water, which is the water to be treated, therein, and is formed as a cylindrical or polygonal tubular housing, so that the water to be treated is introduced from the outside at a certain level.

As shown in the drawing, the main body tank 100 is preferably a cylindrical or polygonal tubular housing with an inlet pipe for introducing the water to be treated from the outside in a closed state.

On the other hand, the mixing unit 200 is disposed at a certain distance upward from the inner bottom of the main tank 100 and mixes the water flow in the water inside the main tank 100 through rotation, but the inner space is in the shape of a wing with an empty space on the outer surface. The air discharge hole 211 is provided as a hollow shaft type having a plurality of openings and an impeller 210 and a predetermined length, so that the impeller 210 is connected to a plurality of openings so that the internal space is communicated with each other along the lower periphery. (220).

In other words, the impeller 210 is applied as an impeller as in a conventional stirring device, and in particular, it is preferable that a plurality of air discharge holes 211 are formed through the outer surface in a wing shape with an empty inner space.

In addition, in the air compression unit 400, the lower end of the central part is connected to the upper end of the hollow rotation shaft 220 of the mixing unit 200 by a connector 300, and it compresses and compresses air while rotating in a cam structure therein. The air is discharged to the air discharge hole 211 of the impeller 210 via the rotating hollow shaft 220 via the connector 300 .

And the driving unit 500 is installed on the upper portion of the air compression unit 400, is axially connected to the upper center of the air compression unit 400, and rotates the cam structure inside the air compression unit 400 through driving While doing this, the rotating hollow shaft 220 and the impeller 210 of the mixing unit 200 are rotationally driven.

The drive unit 500 is preferably provided as a reduction motor used in a conventional stirring device, etc., in particular, the drive shaft 510 for driving protrudes downward, and the upper end of the shaft 440 of the air compression unit 400 to be described later. It is preferable that the parts are connected so that the driving force is transmitted.

On the other hand, if the air compression unit 400, which is a main part of the air injection type multi-purpose stirring device according to the present invention having the configuration as described above, is largely classified, the compression housing 410, the compression cover 420, and the rotation It includes a compression cam 430 , a shaft 440 and an elastic adhesion member 450 .

In detail, the compression housing 410 is provided as a cylindrical case with an open upper portion and a through hole 415 for shaft installation in the center of the bottom surface, and is provided in the upper center of the main tank 100 through an installation stand 100a. The lower part is fixedly installed at a certain distance upwards.

In particular, the compression housing 410 is opposite to 180 degrees in the circumferential direction to form a pair of air inlets 411 so that air in the atmosphere from the outside is introduced into the air inlets 411, and from the air inlets 411 It is preferable that the guide groove 413 is formed to be depressed by a predetermined depth downward from the top in a pair by being biased at a predetermined angle in the circumferential direction and facing 180 degrees.

In addition, the compression cover 420 covers and seals the open upper part of the compression housing 410, and although not specifically shown in the drawings, the compression housing 410 is opened through a fixing means (not shown) such as a bolt. It is preferable to be installed in combination with the compression housing 410 in a closed state by covering the upper part.

In addition, the rotation compression cam 430 is provided in a cam shape having a predetermined height through which an insertion hole 431 is formed in the center, and is rotatably installed inside the compression housing 410, in the vertical direction on both sides in the circumferential direction. The air guide hole 433 is formed to be in communication with the insertion hole 431 from the outer surface of the center.

As shown in the figure, the rotary compression cam 430 has a predetermined area around the insertion hole 431 with respect to the upper and lower surfaces, and a slimming groove (unsigned) can be further recessed.

In addition, the shaft 440 is inserted through the insertion hole 431 of the rotary compression cam 430, and the upper and lower ends are fixed to protrude a predetermined length, and the rotary compression cam 430 is inserted into the compression housing 410. The shaft is installed so that it can rotate.

The shaft 440 as described above is largely composed of a drive connection part 441, a cam connection part 443, and a lower connection part 445 that extend outwardly a plurality of times from the top to the bottom.

The shaft 440 is connected to the drive shaft 510 of the drive unit 500 so that the upper end of the drive connection part 441 transmits the driving force from the drive unit 500, and the lower end of the drive connection part 441 is compressed. A bearing (B) is interposed and installed through the center of the cover 420 to allow idle rotation.

In addition, in the shaft 440, a flange 443a protruding outwardly at the lower end of the cam connection part 443 is coupled and fixed to the lower portion of the rotary compression cam 430 through a coupling means, and the upper end of the lower connection portion 445 is a compression housing. (410) The bearing (B) is interposed so as to be idling in the center of the floor and installed through it.

The shaft 440 having the above configuration is an air guide communication hole ( 442) is formed through penetration.

And the shaft 440 communicates with the inner end of the air guide communication hole 442 and communicates downwardly from the inner center of the upper and lower central portion of the cam connection portion 443 while being inclined downward from the inside of the upper end of the lower connection portion 445. After being expanded, the air guide space 447 is formed by penetrating vertically to reach the lower end of the lower connection part 445 in an expanded state.

That is, the air guide space 447 is formed over the lower end of the gam connection part 443 and the lower connection part 445 of the shaft 440 to form an 'X' shape.

In particular, the shaft 440 configured as described above has a connector 300 interposed at the upper end of the hollow rotation shaft 220 of the mixing unit 200 so that the inside of the hollow rotation shaft 220 and the air guide space 447 communicate with each other. It's important to keep them connected.

To this end, the shaft 440 is the upper end of the connector 300, the upper end of the hollow rotary shaft 220 is inserted and connected to the lower inner side of the air guide space 447 of the lower connection part 445 by a certain length by a certain length. It is desirable to be

In addition, the elastic adhesion member 450 is installed on both outer sides of the compression housing 410, the elastic adhesion piece 455 that protrudes into the compression housing 410 through the guide groove 413 of the compression housing 410. ) while selectively opening and closing the air guide hole 433 when the rotary compression cam 430 rotates in a state in which the end of the rotary compression cam 430 is in elastic contact with the outer surface of the rotary compression cam 430, the air introduced through the air inlet 411 When the rotary compression cam 430 rotates, it is compressed and guided to the air guide hole 433 through the air guide communication hole 442 , the air guide space 447 , and the hollow rotation shaft 220 of the impeller 210 . It is to guide the discharge to the air discharge hole (211).

The elastic adhesion member 450 as described above includes an elastic adhesion housing 451 and an elastic adhesion piece 455 .

In detail, the elastic adhesion housing 451 is fixedly installed on both outer sides of the compression housing 410, and the elastic spring 452 is installed inside so that the elastic spring 452 is elastically deformed and returned by a predetermined length.

The elastic contact housing 451 may be configured in a configuration in which a plurality of blocks and plate structures are fixed through fixing means.

In the elastic adhesion housing 451 as described above, a plurality of elastic springs 452 are accommodated in the vertical direction, and one end of the elastic adhesion piece 455 to the elastic spring 452 end is in close contact with elastic movement by a certain distance. A receiving groove (unsigned) for accommodating the resilient spring 432 is formed as much as possible, and at the front end of the receiving groove (unsigned), the resilient adhesive piece 455 moves resiliently with a certain width over a certain length. It is preferable that a guide groove (unsigned) is formed.

In addition, the elastic adhesion piece 455 has one end in close contact with the elastic spring 452 from one side of the elastic adhesion housing 451, and the other end of the elastic adhesion housing 451 protrudes a certain length from the compression housing 410 While guided to move and return a certain distance by the guide groove 413 of (433) is to open and close.

On the other hand, the connector 300 in the air injection type multi-purpose stirring device according to the present invention configured as described above is provided in a hollow tubular shape, and has a diameter corresponding to the outer diameter of the hollow rotation shaft 220 from the bottom and upward The shaft insertion part 311, which is recessed by a certain length so that the upper end of the hollow rotary shaft 220 is inserted and connected by a certain length, and a diameter smaller than the outer diameter of the hollow rotary shaft 220 from the center of the upper end of the shaft insertion part 311 to reach the top The communication hole 310 composed of the air communication guide part 313 that passes through is formed to pass through in a vertical direction.

Through the communication hole 310 as described above, the air guide hole 433 of the rotary compression cam 430 and the air guide communication hole 442 of the shaft 440 are sequentially introduced into the air guide space 447 The air is to be guided into the hollow rotating shaft 220 .

Moreover, in the air injection type multi-purpose stirring device according to the present invention having the configuration as described above, the hollow rotating shaft 220 upper end is constant inside the air guide space 447 of the lower connection part 445 for the shaft 440 . It is important to ensure that the upper end of the length insertion-connected connector 300 can be inserted and connected closely by a predetermined length.

Therefore, a sealing member (300a) is further installed on the outer surface of the upper part that is inserted and connected to the lower inner side of the air guide space (447) of the lower connection part (445) for the connector (300), and the shaft insertion part of the connector (300) (311) It is preferable that the lower peripheral portion is welded and fixed to the outer surface of the hollow rotation shaft 220 in a state in which the hollow rotation shaft 220 is inserted and connected, and in this case, the sealing member 300a may be applied as an O-ring.

In addition, in the air injection type multi-purpose stirring device according to the present invention having the configuration as described above, the lower connection part 445 of the shaft 440 has the upper end of the connector 300 having a predetermined length inside the lower inner side of the air guide space 447 . It is preferable to be fixedly installed so that the connection state is maintained through a fixing bolt (unsigned) from the outside in the inserted and connected state.

According to the air injection type multi-purpose stirring device according to the present invention having the configuration as described above, a cam structure is applied to compress air in the atmosphere flowing in from the outside, and through the hollow rotating shaft of the mixing unit and the inside of the impeller, the air of the impeller By including an air compression unit for discharging compressed air to the discharge hole, the air in the atmosphere is introduced through the air compression unit to which a simple cam structure is applied, and after compression, the compressed air is discharged through the air discharge hole of the impeller. Air can be supplied to the water at the same time as the mixing of the water flow in the water inside the tank, thereby maximizing the stirring efficiency through the supply of air into the water.

In addition, as the air compression unit to which a simple cam structure is applied is applied, the air in the atmosphere is introduced through the air compression unit and compressed, and then the compressed air is discharged through the air discharge hole of the impeller, while By allowing air to be supplied to the water at the same time as mixing, it can play a role in delivering oxygen to the water during wastewater treatment to increase the activity of microorganisms. At the same time, oxygen is supplied through the air supply, and it can play a role in improving the taste of purified water. It can be used for multiple purposes, such as preventing water decay and activating aquatic organisms to optimize the aquatic ecological environment.

In other words, when used for the purpose of wastewater treatment or water purification, the configuration of the present invention may be applied and used as it is.

In addition, it facilitates convection so that sediment does not accumulate in fish farms such as rivers or reservoirs, and at the same time prevents water decay by implementing aeration in the water, while activating aquatic organisms to optimize the aquatic ecological environment. It is possible to install and use a configuration excluding the main tank while applying separate installation frames to fish farms such as rivers or reservoirs.

Although specific embodiments of the present invention have been described in detail above, the present invention is not limited thereto, and various modifications can be made by those skilled in the art to which the present invention pertains. are included within the scope of the present invention.

100: body tank 100a: mounting stand
200: mixing unit 210: impeller
211: air discharge hole 220: hollow rotating shaft
300: connector 300a: sealing member
310: communication hole 311: shaft insertion part
313: air communication guide
400: air compression unit
410: compression housing 411: air inlet
413: guide groove 415: through hole
420: compression cover 430: rotary compression cam
431: insertion hole 433: air guide hole
440: shaft 441: drive connection
442: air guide communication hole 443: cam connection
443a: flange 445: lower connection
447: air guide space 450: elastic adhesion member
451: tanbal adhesion housing 452: tanbal spring
455: cohesive piece
500: drive unit
510: drive shaft
B: bearing

Claims (4)

The main body tank 100 in which the water to be treated, wastewater or water is accommodated therein, and is formed in a cylindrical or polygonal tubular housing to introduce the number of objects to be treated from the outside at a certain level; It is disposed at a certain distance upward from the inner bottom of the main body tank 100 and mixes the water flow in the water inside the main body tank 100 through rotation. The through-formation is provided as a hollow shaft type having an impeller 210 and a predetermined length so that the impeller 210 is connected to a plurality of rotating hollow shafts 220 along the lower periphery so that the internal space communicates with each other. Mixing unit 200 ); The lower end of the central part is connected to the upper end of the hollow rotation shaft 220 of the mixing unit 200 by a connector 300, and rotates in a cam structure inside, compressing air and passing the compressed air through the connector 300. an air compression unit 400 for discharging to the air discharge hole 211 of the impeller 210 via the rotating hollow shaft 220 ; And it is installed on the upper part of the air compression unit 400, is axially connected to the upper center of the air compression unit 400, and rotates the cam structure inside the air compression unit 400 through driving of the mixing unit 200. A rotating hollow shaft 220 and an impeller 210 including a driving unit 500 to be driven to rotate,
The air compression unit 400 is provided as a cylindrical case with an open upper portion and a through hole 415 for shaft installation in the center of the bottom surface, and upward through the installation stand 100a in the upper center of the main body tank 100 . The lower end is fixedly installed at a certain distance apart, and faces 180 degrees in the circumferential direction to form a pair of air inlets 411 so that air in the atmosphere from the outside is introduced through the air inlets 411, and from the air inlets 411 A compression housing 410 in which a guide groove 413 is recessed to a predetermined depth downward from the top in a pair by being biased at a certain angle in the circumferential direction and facing 180 degrees;
A compression cover 420 that covers and seals the open upper part of the compression housing 410, and
The insertion hole 431 in the center is provided in the form of a cam having a through-formed height and is rotatably installed inside the compression housing 410, and the insertion hole 431 is inserted from the outer surface of the center in the vertical direction on both sides in the circumferential direction. A rotary compression cam 430 through which the air guide hole 433 is formed to communicate with the
While being inserted through the insertion hole 431 of the rotary compression cam 430, the upper and lower ends are fixed to protrude a certain length, and the rotary compression cam 430 is rotatably installed in the compression housing 410 to be rotatable. It is composed of a driving connection part 441 , a cam connection part 443 , and a lower connection part 445 that extend outward a number of times from the top to the bottom, and the upper end of the driving connection part 441 is the driving force from the driving unit 500 . It is connected to the drive shaft 510 of the drive unit 500 to transmit this, and the bearing (B) is interposed and installed so that the lower end of the drive connection part 441 can idle in the center of the compression cover 420, and the cam connection part ( A flange (443a) protruding outward at the lower end of the 443) is coupled and fixed with the lower portion of the rotary compression cam 430 through a coupling means, and the upper end of the lower connection portion 445 is a bearing (B) so that the upper end of the compression housing 410 can idly rotate in the center of the bottom. ) is interposed and installed through, while the air guide communication hole 442 communicates with the air guide hole 433 of the rotary compression cam 430 from both outer surfaces of both sides of the upper and lower central portion of the cam connection part 443 inward. This is formed through, communicates with the inner end of the air guide communication hole 442 and communicates downwardly from the inner center of the upper and lower central portion of the cam connection portion 443. Then, in an expanded state, it is vertically penetrated to reach the lower end of the lower connection part 445 to form an air guide space 447, and the connector 300 is interposed at the upper end of the hollow rotation shaft 220 of the mixing unit 200 and is hollow. The upper end of the hollow rotating shaft 220 is inserted and connected to the lower inner side of the air guide space 447 of the lower connection part 445 by a certain length so that the inside of the rotary shaft 220 and the air guide space 447 are connected to each other. Shaft 440 in which the upper part is tightly inserted and connected by a certain length, and
Installed on both outer sides of the compression housing 410, the end of the elastic contact piece 455 that protrudes into the compression housing 410 through the guide groove 413 of the compression housing 410 is a rotary compression cam (430) While selectively opening and closing the air guide hole 433 during rotation of the rotary compression cam 430 in a state of being elastically attached to the outer surface of the to be guided to the air guide hole 433 and to be discharged to the air discharge hole 211 of the impeller 210 via the air guide communication hole 442 , the air guide space 447 , and the hollow rotation shaft 220 . Air injection type multi-purpose stirring device, characterized in that it comprises a resilient adhesion member (450).
delete According to claim 1,
The elastic adhesion member 450 is fixedly installed on both outer sides of the compression housing 410, and the elastic spring 452 is internally installed so that the elastic spring 452 is elastically deformed and returned by a predetermined length.
One end of the elastic contact housing 451 is in close contact with the elastic spring 452 from one side, and the other end protrudes a predetermined length from the elastic contact housing 451 at a predetermined distance by the guide groove 413 of the compression housing 410 . While guided to move and return, the other end is closely supported with elastic force on the outer surface of the rotary compression cam 430 and selectively opens and closes the air guide hole 433 when the rotary compression cam 430 rotates ( 455), characterized in that it comprises an air injection type multi-purpose stirring device.
According to claim 1,
The connector 300 is provided in a hollow tubular shape, has a diameter corresponding to the outer diameter of the hollow rotation shaft 220 from the bottom, and is recessed for a certain length upward, so that the upper end of the hollow rotation shaft 220 is inserted and connected by a certain length. 311) and a communication hole 310 consisting of an air communication guide part 313 penetrating from the center of the upper end of the shaft insertion part 311 to a diameter smaller than the outer diameter of the hollow rotation shaft 220 and reaching the upper end in the vertical direction The stage is formed through the length,
The air introduced into the air guide space 447 through the communication hole 310 sequentially passes through the air guide hole 433 of the rotary compression cam 430 and the air guide communication hole 442 of the shaft 440 is While being guided into the hollow rotating shaft 220,
The upper end of the hollow rotating shaft 220 is inserted and connected to the lower inner side of the air guide space 447 of the lower connection part 445 for the shaft 440 by a predetermined length so that the upper end of the connector 300 can be inserted and connected closely by a predetermined length. ,
A sealing member (300a) is further installed on the outer surface of the upper part that is inserted and connected to the lower inner side of the air guide space (447) of the lower connection part (445) for the connector (300),
An air injection type multi-purpose stirring device, characterized in that the lower peripheral portion of the shaft insertion portion 311 of the connector 300 is welded and fixed to the outer surface of the hollow rotation shaft 220 in a state in which the hollow rotation shaft 220 is inserted and connected.

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