KR20190061953A - Aerator attached to the rotating vertical axis - Google Patents

Abstract

The present invention relates to a carrier aeration device attached with vertical rotation shaft, which comprises: a rotating carrier device for discharging air by a rotating carrier and performing an aeration function by a rotating aeration blade nozzle; a reaction tank module housing formed in a cylindrical shape having a lower surface as an opening and having the rotating carrier device disposed therein; and a carrier device mounting part for mounting the reaction tank module housing and the rotating carrier device in a state in which the reaction tank module housing and the rotating carrier device can be used by being fixed to a structure at a place of usage.

Description

[0001] The present invention relates to a vertical rotating shaft,

The present invention relates to a carrier shaker device with a vertical rotation axis.

In the sewage treatment method, the activated sludge treatment method is used as the most common sewage treatment method. In this method, 20 to 40% of the activated sludge from the final sedimentation tank is returned to the aeration tank to mix the incoming sludge with the activated sludge, and the sludge is separated from the final sedimentation tank to discharge the supernatant.

The feature of this method is that activated sludge with good sedimentation property can be obtained.

However, it is necessary to control the MLSS corresponding to the BOD load, to control the balance of adsorption action and oxidation action depending on the quality of activated sludge and aeration time, and to control the amount of sludge and feed, It is possible.

The contact oxidation method complements the disadvantages of the activated sludge process and charges the contact material in the aeration tank to circulate the sewage to the biofilm formed on the surface of the carrier to remove the organic matter in the sewage water by decomposing the microorganisms, And it is difficult to set the conditions for uniformly aerating the medium in the aeration tank because it is easy to control the operation and generates less sludge because the sludge is not necessary.

In addition, the aeration method includes a method of spraying water into the air and a method of introducing air into the water. Sufficient dissolved oxygen must always be supplied to activate the activated sludge mainly composed of aerobic microorganisms or to maintain its activity. The aeration device includes an air diffuser and a surface aerator. The air diffuser aids air into the water and mixes the aeration tank.

The air diffusing system converts the air into a bubble state so that aeration can be sufficiently performed. A ceramic substrate made of porous ceramics (formed or sintered of quartz sand or silicon carbide particles), an acid furnace, or a furnace equipped with holes in the form of a nozzle are used

On the other hand, a sufficient dissolved oxygen should be supplied to the aeration tank, because the oxygen supply is insufficient due to the variation of the base condition such as the failure of the apparatus, and the whole microorganisms in the aeration tank may be corrupted. Therefore, there is a need for an aeration device that can be easily installed without changing the civil structure of the existing aeration tank used in the industrial field where auxiliary devices are needed.

In addition, there is a need for a modular pyrolysis device capable of being easily installed and installed in a small scale livestock farming house to a waste water treatment facility.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Utility Model Publication No. KR 20-0187972 Y1.

Korea Registered Utility Model Bulletin KR 20-0187972 Y1

An object of the present invention is to provide an acid type carrier device with a vertical rotation axis which is modularly formed so that it can be easily used as an auxiliary aeration device without changing a structure in a conventional aeration tank.

It is another object of the present invention to provide an acid type carrier device with a vertical rotation axis which can be easily and removably installed in a water treatment facility for wastewater generated in a small scale livestock farmhouse.

The object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood from the following description.

According to an aspect of the present invention, there is provided a rotary carrier device for discharging air by a rotating carrier and performing an aeration and an aeration function by a rotary type airfoil nozzle; A reaction tank module housing formed in a cylindrical shape having a lower surface as an opening and having the rotary carrier device disposed therein; And a carrier device mounting portion for mounting the reaction vessel module housing and the rotary carrier device in a state in which they can be used by being fixed to a structure of a place where the rotary carrier device is used; And the vertical axis of rotation of the vertical axis.

The rotary type carrier device may further include: a first rotating shaft mounted by a bearing portion so as to be rotatable on the carrier device mounting portion; A second rotary shaft mounted inside the first rotary shaft and having a second air supply unit at a center thereof; A reduction gear device connected to a drive motor at an upper end of the first and second rotary shafts and transmitting first and second rotary forces to the first and second rotary shafts; An air injection pipe connected to the first rotary shaft and the upper side of the second rotary shaft by a rotary joint and supplying compressed air to the first air supply unit formed between the second air supply unit and the first and second rotary shafts; A first stage carrier receiving part disposed in an upper space of the reaction tank module housing and divided by the first partition to receive the first stage carriers; A first stage support supporter mounted on the first rotary shaft and supporting the first stage support receiving part and rotating the first stage support receiving part by rotation of the first rotation shaft; A second stage carrier receiving portion disposed in a lower space of the first stage carrier supporter and divided by the second partition to receive the second stage carriers; And a second stage carrier supporter mounted on the first rotary shaft, the second stage carrier supporter supporting the second stage carrier receiving part and rotating the first stage carrier receiving part by rotation of the first rotating shaft; And a control unit.

In addition, the rotary type carrier may be mounted on an end of the second rotary shaft extending to a lower space of the second stage carrier supporter, rotated by rotation of the second rotary shaft, and supply air from the second air supply unit A lower acid base portion for supplying the water to the diffuser blade side; And a pair of a pair of lower ends of the lower base portion being twisted at a twist angle at both ends of the lower base portion; And a control unit.

The second rotation axis is rotated at a higher speed than the rotation speed of the first rotation axis.

The carrier shaker device with vertical axis is further equipped with an attachment removing part fixedly mounted on a mounting guide extending from the reactor module housing and mounted so as to be in contact with the rotating surface of the first stage carrier and the second stage carrier .

The removal unit may include a removal brush that contacts the rotating surface of the first stage carrier and the second stage carrier. As the first stage carrier and the second stage carrier rotate, And scraping the cylindrical surface of the first carrier and the second carrier.

In addition, the vertical axis-bearing carrier diffusing device may further include a weight measuring part for measuring a load on the bearing part of the first rotating shaft on the carrier device mounting part in the rotary carrier device, The control unit of the apparatus may determine the degree of clogging of foreign matter and microorganisms on the surface of the tile from the weight measurement information transmitted from the weight measuring unit and output notification information.

In addition, the carrier shaker with vertical axis may further include a vacuum pressure measurement pipe connected to the first air supply unit in the rotary type carrier, wherein the vacuum pressure measurement pipe further includes a vacuum pressure measurement gauge connected to the vacuum pump Wherein the control unit of the vertical axis-bearing carrier diffuser receives, from the vacuum pressure measurement information, vacuum pressure measurement information transmitted from the vacuum pressure measurement gauge while the air injection pipe is closed at the time of resting, The degree of clogging from the foreign substance and the microorganism is determined and the notification information is outputted.

The carrier shaker device with vertical axis according to an embodiment of the present invention is characterized by being modularized in a small scale capable of moving installation, so that it can be installed in a conventional aeration tank used in an industrial field without changing the civil engineering structure.

In addition, the carrier shaker device with a vertical axis according to an embodiment of the present invention is modularly formed to have a function of aerating by rotation and air injection, and thus can be easily installed in a place where aeration device is needed in a small scale livestock farm I have.

Also, according to the embodiment of the present invention, it is possible to easily install a conventional aeration aerator device without modification to a conventional water treatment aerator device, and to supplement aeration device lacking in a conventional aeration device The treatment efficiency of the existing water treatment facility can be increased.

The carrier shaker with vertical axis according to an embodiment of the present invention can perform oxygen transfer with a large specific surface area by injecting air into fine bubbles in the water from the pores formed in the cylindrical surface from the rotary carrier by rotation, And the stirrer function in the water tank and the generated air bubbles are broken by the installed rotary type air bladder nozzles, thereby finely dividing the air bubbles.

The apparatus for vertically rotating a carrier having a vertical axis according to an embodiment of the present invention can be easily applied to various processing facilities including livestock farms due to its simple structure and the function of aeration.

1 shows a structure of a carrier shaker with a vertical axis according to an embodiment of the present invention.
FIG. 2 is a plan view of a rotary carrier according to an embodiment of the present invention.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise.

In the present application, when a component is referred to as " comprising ", it means that it can include other components as well, without excluding other components unless specifically stated otherwise. Also, throughout the specification, the term " on " means to be located above or below the object portion, and does not necessarily mean that the object is located on the upper side with respect to the gravitational direction.

Hereinafter, a carrier shaker with a vertical axis according to an embodiment of the present invention will be described in detail.

1 shows a structure of a carrier shaker with a vertical axis according to an embodiment of the present invention.

The carrier according to an embodiment of the present invention means that a porous body having a plurality of small voids in the interior or on the surface of the solid body is porous.

When a carrier resulting from a small air gap according to an embodiment of the present invention is immersed in a water tank and air is blown into the water, air is supplied into the water in the form of small bubbles. When air is injected into the small bubbles, Can be improved.

A vertical carrier-equipped carrier diffuser device according to an embodiment of the present invention includes a rotary carrier device that discharges air by a rotating carrier and performs aeration and aeration by a rotary type wing nozzle; A reaction tank module housing 91 formed in a cylindrical shape having a lower surface as an opening and having a rotatable carrier device disposed therein; And a carrier device mounting part (101) which is fixed to a structure of a place where the reactor module housing (91) and a rotary carrier device are used, and is mounted and mounted so as to be usable; .

The carrier device mounting portion 101 may be connected to the civil engineering structure at the place of use. In addition, the carrier device mounting portion 101 can perform a role of moving the carrier shaker device with vertical axis to the edge of the reaction tank when the carrier is required to be replaced or maintained.

FIG. 2 is a plan view of a rotary carrier according to an embodiment of the present invention.

1 and 2, the rotary carrier device includes a first rotation shaft 21 mounted by a bearing portion so as to be rotatable to the carrier device mounting portion 101, and a second rotation shaft 21 mounted inside the first rotation shaft 22 And a second rotation shaft 22 having a second air supply unit 202 formed at the center thereof.

 A reduction gear device 24 connected to a driving motor 25 at an upper end of the first and second rotary shafts to transmit first and second rotary forces to the first and second rotary shafts, A second air supply unit 202 connected to the upper side of the rotary shaft 22 by a rotary joint and formed of an air supply pipe inside the second rotary shaft 22 and a first air supply unit 201 formed between the first and second rotary shafts And an air injection pipe 30 for supplying compressed air from a blower device (not shown).

The rotary carrier device is disposed in a space above the reaction tank module housing 91 and includes a first stage carrier receiving portion 15 divided by the first partition wall 17 to receive the first stage carriers 10-1, ; A first stage support support part (19-1) mounted on the first rotation shaft and supporting the lower end of the first stage support receiving part and rotating the first stage support receiving part by rotation of the first rotation shaft; And a second stage carrier receiving part (20) disposed in the lower space of the first stage carrier supporting part (19-1) and divided by the partitioning wall (17) of the second stage to accommodate the second stage carriers (10-2) 15-2); A second stage which is mounted on the first rotation shaft and supports the lower portion of the second stage carrier receiving portion 15-2 and rotates the second stage carrier receiving portion 15-2 by the rotation of the first rotating shaft, A carrier supporter 19-2; .

Further, the rotary carrier device is mounted at the end of the second rotary shaft extending to the lower space of the second stage carrier support 19-2, and is rotated by rotation of the second rotary shaft, A lower acid generator 31 for supplying air from the second air supplier 202 to the air damper side; And a pair of air bladder nozzles 32 that are formed at both ends of the lower portion of the lower base 31 and twisted at a twist angle so as to diffuse the air supplied from the lower bladder 31 into water.

The diffuser nozzle 32 is formed of a plurality of diffuser blades having a twist angle in the middle portion so that the supplied air is finely vaporized.

On the cylindrical surface of the vertical section corresponding to the height of the first stage carrier receiving section and the second stage carrier receiving section on the first rotating shaft 21, air is introduced into the first stage carrier receiving section and the second stage carrier receiving section, respectively, A plurality of pores are formed.

The first rotary shaft 21 is rotated at a low speed and the second rotary shaft is rotated at a higher speed than the first rotary shaft 21.

The carrier according to the embodiment of the present invention rotates at a low speed according to the rotation of the first rotary shaft 21 while being supplied with air from the pores formed in the cylindrical surface of the first rotary shaft 21, Air can be injected into the bubbles to carry oxygen transfer over a wide specific surface area.

In addition, the diverging blade nozzle (32) is configured such that the large air bubbles are finely crushed by the action of generating the air supplied while rotating at a high speed, and a dead space in which oxygen supply is blocked by generating a downward flow And minimizes it.

The carrier shaker with vertical axis according to the embodiment of the present invention is also provided with an attachment member (not shown) mounted so as to be in contact with the rotating surface of the first stage carrier and the second stage carrier by a mounting guide extending from the reactor module housing 91 Rejection < / RTI >

The adhered material removing unit 41 includes a removing brush contacting the rotating surface of the first stage carrier and the second stage carrier and is fixed to the reaction tank module housing 91 so that the first stage carrier and the second stage carrier By rotating the removing brush, the removing brush scrapes on the cylindrical surface of the first stage carrier and the second stage carrier to prevent deposits or microorganisms deposited on the carrier surface from being deposited and corrupted.

In addition, the carrier shaker device with vertical axis according to an embodiment of the present invention includes a weight measuring unit 27 for measuring a load on the bearing unit 101 of the rotary carrier apparatus, .

According to an embodiment of the present invention, a control unit (not shown) of the carrier shaker with vertical rotation axis determines the degree of clogging from the foreign substances and microorganisms on the surface of the tile from the weight measurement information transmitted from the weight measuring unit 27 And outputs notification information about the abnormality of the carrier.

That is, the control unit of the carrier shaker with vertical axis can determine that the carrier is clogged when the weight is changed over a certain range, and output a warning notification signal.

Alternatively, the carrier shaker with vertical axis according to an embodiment of the present invention may further include a vacuum pressure measurement pipe 62 connected to the first air supply unit 201 in the rotary carrier device, and the vacuum pressure measurement pipe 62 ) Further comprises a vacuum pressure measurement gauge (61) connected to a vacuum pump (not shown).

According to an embodiment of the present invention, the control unit (not shown) of the carrier shaker with vertical rotation shaft receives the vacuum pressure measurement information from the vacuum pressure measurement gauge 61 while the air injection tube 30 is closed at rest. From the transferred vacuum pressure measurement information, the clogging degree of foreign substances and microorganisms on the surface of the coating is determined and the notification information is outputted as to whether or not the carrier is abnormal.

That is, when the control unit of the carrier shaker device with the vertical axis is changed from the vacuum pressure measurement information so that the vacuum pressure is increased beyond a certain range, the control unit may determine that the carrier is clogged and output a warning notification signal.

In addition, the carrier shaker with vertical axis according to an embodiment of the present invention further includes a pulling ring 95 formed at the upper end of the first rotating shaft of the rotary carrier.

The carrier shaker with vertical axis according to an embodiment of the present invention can lift and hold the rotary carrier device with a pulling ring 95 by a lifting device (not shown) when the carrier of the rotary carrier device needs to be replaced or maintained Thereby facilitating repair on the ground, if necessary.

The carrier shaker with vertical axis according to an embodiment of the present invention lifts up the reaction tank module housing 91 by lifting the carrier ring 95 to the ground by using the pull ring 95, Carriers in the form of a piece of cake can easily be detached and attached to the space separated by the partition walls 17 in the two-stage carrier receiving portion.

The carrier shaker device with vertical axis according to an embodiment of the present invention is characterized by being modularized in a small scale capable of moving installation, so that it can be installed in a conventional aeration tank used in an industrial field without changing the civil engineering structure.

In addition, the carrier shaker device with a vertical axis according to an embodiment of the present invention is modularly formed to have a function of aerating by rotation and air injection, and thus can be easily installed in a place where aeration device is needed in a small scale livestock farm I have.

Also, according to the embodiment of the present invention, it is possible to easily install a conventional aeration aerator device without modification to a conventional water treatment aerator device, and to supplement aeration device lacking in a conventional aeration device The treatment efficiency of the existing water treatment facility can be increased.

The carrier shaker with vertical axis according to an embodiment of the present invention can perform oxygen transfer with a large specific surface area by injecting air into fine bubbles in the water from the pores formed in the cylindrical surface from the rotary carrier by rotation, And the stirrer function in the water tank and the generated air bubbles are broken by the installed rotary type air bladder nozzles, thereby finely dividing the air bubbles.

The apparatus for vertically rotating a carrier having a vertical axis according to an embodiment of the present invention can be easily applied to various processing facilities including livestock farms due to its simple structure and the function of aeration.

15-1, 150-1:
17:
19-1, 19-2:
21:
22:
24: Reduction gear device
25: Driving motor
27: Weight measuring part
31: Lower Busan donation
32: Diffuse nozzle (
41: Adhesive removal
91: Reactor module housing
101: carrier device mounting part
201: first air supply part
202: second air supply part

Claims (8)

A rotary carrier device for discharging air by a rotating carrier and performing an aeration and an aeration function by a rotary type wing nozzle;
A reaction tank module housing formed in a cylindrical shape having a lower surface as an opening and having the rotary carrier device disposed therein;
And a carrier device mounting portion for mounting the reaction vessel module housing and the rotary carrier device in a state in which they can be used by being fixed to a structure of a place where the rotary carrier device is used; And the vertical axis of rotation of the carrier shaft. The method according to claim 1,
Wherein the rotary carrier device comprises:
A first rotating shaft mounted by a bearing portion so as to be rotatable on the carrier device mounting portion;
A second rotary shaft mounted inside the first rotary shaft and having a second air supply unit at a center thereof;
A reduction gear device connected to a drive motor at an upper end of the first and second rotary shafts and transmitting first and second rotary forces to the first and second rotary shafts;
An air injection pipe connected to the first rotary shaft and the upper side of the second rotary shaft by a rotary joint and supplying compressed air to the first air supply unit formed between the second air supply unit and the first and second rotary shafts;
A first stage carrier receiving part disposed in an upper space of the reaction tank module housing and divided by the first partition to receive the first stage carriers;
A first stage support supporter mounted on the first rotary shaft and supporting the first stage support receiving part and rotating the first stage support receiving part by rotation of the first rotation shaft;
A second stage carrier receiving portion disposed in a lower space of the first stage carrier supporter and divided by the second partition to receive the second stage carriers; And
A second stage carrier supporter mounted on the first rotary shaft and supporting the second stage carrier receiving part and rotating the first stage carrier receiving part by rotation of the first rotating shaft; And the vertical axis of rotation of the carrier shaft. 3. The method of claim 2,
Wherein the rotary carrier device comprises:
A second air supply unit for supplying air from the second air supply unit to the side of the air damper nozzle, the second air supply unit being rotatable by rotation of the second rotation shaft, Acid base; And
A pair of a pair of lower ends of the lower base portion being twisted at a twist angle at both ends of the lower base portion; And the vertical axis of rotation of the carrier shaft. The method of claim 3,
Wherein the second rotation axis is rotated at a higher speed than the rotation speed of the first rotation axis. 3. The method of claim 2,
The carrier shaker device with a vertical rotation axis,
Further comprising an attachment removing unit fixedly mounted on a mounting guide extending from the reactor module housing and mounted so as to be in contact with a rotating surface of the first stage carrier and the second stage carrier. 6. The method of claim 5,
The removal unit includes a removal brush that contacts the rotating surface of the first stage carrier and the second stage carrier. As the first stage carrier and the second stage carrier rotate, the removal brush moves to the first stage carrier And scraping on the cylindrical surface of the second stage carrier. 3. The method of claim 2,
The carrier shaker device with a vertical rotation axis may further include a weight measuring unit for measuring a load on a bearing unit of the first rotating shaft in a bearing unit of the rotary carrier,
Wherein the control unit of the vertical axis-bearing carrier diffuser measures the degree of clogging from foreign substances and microorganisms on the surface of the photocatalyst based on the weight measurement information transmitted from the weight measuring unit, and outputs notification information. Device. 3. The method of claim 2,
Wherein the vertical axis-equipped carrier diffuser further comprises a vacuum pressure measurement pipe connected to the first air supply unit in the rotary type carrier, wherein the vacuum pressure measurement pipe further comprises a vacuum pressure measurement gauge connected to the vacuum pump,
Wherein the control unit of the vertical axis-bearing catalytic fan unit receives the vacuum pressure measurement information transmitted from the vacuum pressure measurement gauge while the air injection tube is closed at the time of stoppage, And a clogging degree from the microorganism, and outputs notification information.

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