KR101111641B1 - Carrier unit for anaerobic reservoir, carrier for anaerobic reservoir and the method thereof - Google Patents

Abstract

The present invention includes a plurality of first support parts 110 spaced apart from each other, and a plurality of second supports spaced apart from each other and coupled to the first support part 110 to form an opening together with the first support part 110. And a linear porous contact member 130 provided in the opening formed by the first support 110 and the second support 120 while reciprocating between the support 120 and the first support 110. ; The first support part 110 is plate-like and protrudes to one side, and includes a first support member 1101 having a plurality of winding protrusions 1103 to which the contact media 130 is wound, and a plate-like coupling means 101. The second support member 1102 is coupled to the first support member 1101 in the direction in which the winding protrusion 1103 is formed to prevent the contact media 130 wound around the winding protrusion 1103 from being separated. ; The contact medium 130 is wound around the winding projection 1103 provided in the first support member 1101 which are spaced apart from each other while the carrier unit for the anaerobic tank of the sewage treatment facility is provided reciprocating between the first support (110) ( 100), it is possible to manufacture even when the production is simple and does not have complicated equipment, and it is easy to replace, and there is an effect that the problem that the removal of small particles is prevented by the large particles is solved.

Anaerobic, sewage, treatment

Description

Carrier unit for anaerobic tank of sewage treatment facility, carrier for anaerobic tank and manufacturing method thereof {CARRIER UNIT FOR ANAEROBIC RESERVOIR, CARRIER FOR ANAEROBIC RESERVOIR AND THE METHOD THEREOF}

The present invention relates to a carrier unit for an anaerobic tank of a sewage treatment plant, a carrier and a method for manufacturing the same. More particularly, the present invention is simple to manufacture, and can be manufactured even when no complicated equipment is provided. The present invention relates to a carrier unit for an anaerobic tank of a sewage treatment plant in which removal of particles is not hindered by large particles, a carrier and a method of manufacturing the same.

Wastewater is contaminated water that is thrown away after using a constant, and contains various substances such as nitrogen compounds and organic substances, depending on the purpose of the constant used.

Activated sludge method has been mainly used as a method for treating nitrogen compounds and organic substances, and activated sludge method is a method adopted for aerobic treatment of wastewater. In general activated sludge method, as wastewater continues to be injected into an aeration tank, the microorganisms grow by ingesting and decomposing organic matter in the wastewater, and the grown microorganisms condense and settle in the terminal sedimentation basin. It is returned to the aeration tank in the form of sludge, and part of it is made of waste sludge, so that the amount of microorganisms in the aeration tank is maintained at an appropriate level while the organic matter in the waste water is decomposed.

Figure 1 is shown to explain an example of the sewage treatment apparatus, Figure 2 is shown to explain another example of the sewage treatment apparatus, Figure 3 is in the anaerobic tank of the sewage treatment apparatus shown in Figures 1 and 2 It shows a support for the anaerobic tank is accommodated, Figure 4 is a perspective view showing a contact medium forming the carrier for the anaerobic tank shown in FIG.

In the sewage treatment apparatus 10 which is the sewage treatment facility shown in FIG. 1 and FIG. 2, the treatment tank is arranged in order of the anaerobic tank 11, the anaerobic tank 13, the aerobic tank 13, and the sedimentation tank 17. FIG. The microorganisms contained in the activated sludge release phosphorus in the anaerobic tank 11 in the process of treating the sewage introduced through the inflow pipe 12. Subsequently, the denitrification reaction by the denitrification microorganism proceeds in the anoxic tank 13, and the nitrification progresses in the aerobic tank 15, and the microorganism which released phosphorus absorbs phosphorus again. At this time, since the amount of phosphorus absorbed in the aerobic tank 15 is greater than the amount of phosphorus released in the anaerobic tank 11, phosphorus is reduced from the treated water as a result. However, in order to remove phosphorus and maintain an appropriate microbial concentration, activated sludge in the settling tank 17 must be returned to the anaerobic tank 11 or the anoxic tank 13 through the sludge conveying pipe 19, and in the case of nitrogen, the conveying pipe 18 It is to be returned to the anaerobic tank 13 in the form of a mixed liquid from the aerobic tank 15 through.

In FIG. 1 and FIG. 2, reference numeral 14 denotes a connecting tube, 16 a discharge tube, 18a a first conveying tube for conveying a mixed solution in the anaerobic tank 13 to the anaerobic tank 11, and 1103, an anaerobic tank carrier installed in the anaerobic tank. 1303 denotes a carrier installed in an oxygen-free tank, 1501 denotes an acid engine supplying air to an aerobic tank, 1503 denotes a carrier installed in an aerobic tank, and 1505 illustrates a blower connected to the acid engine. The anaerobic tank 11 and the anaerobic tank 13 are provided with stirring devices 1101 and 1301 for preventing deposition.

3 and 4, the anaerobic tank contact medium 2303 according to the prior art is made of a waste synthetic resin as a raw material, and has a cross-section having an X-shape, and the layers are stacked so that the directions are crossed at right angles to the anaerobic tank carrier ( 2301) to provide a space for contact between the microorganisms between the layers.

However, the anaerobic contact medium 2303 and the carrier 2301 of the sewage treatment facility according to the prior art are not easy to manufacture in shape, but are stacked and installed, which takes a lot of time in installation and replacement. It is inconvenient to move it, there was a problem that the efficiency of the efficiency decreases by increasing the contact area between the contact medium (2303).

The present invention has been proposed in order to solve the above problems, it is easy to manufacture because it uses a linear contact medium, it is possible to manufacture even if not equipped with a complex equipment, the contact area is changed according to the use state It is an object of the present invention to provide an anaerobic tank carrier unit, an anaerobic tank carrier, and a method of manufacturing the same, which are easy to replace, easy to replace, and which do not cause the problem that the removal of small particles is prevented by large particles.

In order to achieve the above object, the present invention is a carrier unit for the anaerobic tank of the sewage treatment facility is provided with at least one anaerobic tank of the sewage treatment apparatus, a plurality of first support and spaced apart from each other, spaced apart from each other and the first end A linear porous contact medium provided in the opening formed by the first support and the second support while reciprocating between the plurality of second support and coupled to the support to form an opening together with the first support It includes; The first support part is plate-shaped and protrudes to one side, and includes a first support member having a plurality of winding protrusions on which the contact media is wound, and a plate-shaped coupling means is coupled in a direction in which the winding protrusions are formed on the first support member. A second support member which prevents the contact medium wound around the winding protrusion from being separated; The contact medium provides a carrier unit for an anaerobic tank of a sewage treatment facility which is reciprocated between the first support parts while being wound on a winding protrusion provided on the first support member spaced apart from each other.

In addition, the present invention is a carrier unit for the anaerobic tank of the sewage treatment facility is provided with at least one anaerobic tank of the sewage treatment apparatus, a plurality of first support parts provided with spaced apart from each other, both ends are coupled to the first support portion A plurality of ring-shaped porous contact media provided in the opening formed by the first support portion and the second support portion while the plurality of second support portion forming the opening together with the first support portion, both sides caught by the engaging projection of the first support portion It includes; The first support part is plate-shaped and protrudes to one side, and includes a first support member having a plurality of winding protrusions on which the contact media is wound, and a plate-shaped coupling means is coupled in a direction in which the winding protrusions are formed on the first support member. Provided is a carrier unit for an anaerobic tank of a sewage treatment facility comprising a second support member for preventing the contact medium caught on the winding protrusion from being separated.

In addition, the first support member further comprises a fixing member having a fixing groove formed by fixing the end of the contact medium is fixed, the both ends of the contact medium for the anaerobic tank of sewage treatment facility is fixed to the first support It provides a carrier unit.

In addition, the present invention includes a plurality of binding members for binding the contact medium located adjacent to each other; The contact medium provides a carrier unit for an anaerobic tank of a sewage treatment facility having a lattice shape in an opening formed by a first support part and a second support part.

In addition, the present invention is the end of the second support portion is coupled between the first support member and the second support member, the second support portion is spaced along the longitudinal direction is projected to one side and the plurality of contact media is caught Provided is a carrier unit for an anaerobic tank of a sewage treatment facility having a protrusion.

The present invention also provides a support for an anaerobic tank of a sewage treatment facility provided in an anaerobic tank of a sewage treatment apparatus, the fixing frame including one or more guide protrusion pairs provided to be spaced from each other, and positioned between the guide protrusion pairs of the fixing frame. Consisting of a carrier unit for the anaerobic tank of at least one sewage treatment plant; The contact medium provides an anaerobic carrier for molding waste tire powder.

On the other hand, the present invention is a plate-like protruding to one side and a plurality of first support members having a plurality of winding projections wound around the linear contact medium is positioned to be spaced apart from each other, both ends of the plurality of second support portion to the support member Combining to form a rectangular opening; Fixing one end of the linear contact medium to the first support member and winding the winding protrusion provided on the first support member to reciprocate between the support members and then fixing the other end to the support member; Coupling the plate-shaped second support member to the first support member in a direction in which the winding protrusion protrudes, thereby preventing the contact media wound on the winding protrusion from being separated; It provides a method for producing a carrier unit for anaerobic tank of the sewage treatment plant comprising the step of binding the adjacent contact medium to each other while reciprocating the first support member to form a lattice.

In addition, the present invention is a plate-like protruding to one side and a plurality of first support members having a plurality of winding projections wound around the linear contact medium is positioned to be spaced apart from each other, both ends of the plurality of second support portion to the support member Combining to form a rectangular opening; Fixing one end of the linear contact medium to the first support member and winding the winding protrusion provided on the first support member to reciprocate between the support members and then fixing the other end to the support member; Binding the adjacent contact media to each other while reciprocating the first support member to form a lattice shape; It provides a method for producing a carrier unit for anaerobic tank of the sewage treatment facility comprising the step of engaging the plate-like second support member to the first support member in the direction in which the winding projection protrudes to prevent the contact media wound on the winding projection to escape. .

According to the present invention, the anaerobic carrier unit of the sewage treatment plant, the anaerobic carrier and the production method thereof are simple to manufacture the carrier and can be prepared from linear or ring-shaped contact media to produce contact media such as lattice. It is possible to manufacture even if there is no equipment for it, it is easy to change the contact area according to the use state, it is easy to replace, large particles of organic matter adsorbed to the contact medium is removed from the top and small particles are lower The removal of small particles has the effect that the removal of small particles is not hindered by large particles.

Hereinafter, with reference to the drawings will be described in detail in the anaerobic tank carrier unit, anaerobic tank carrier and its production method of sewage treatment facilities according to a preferred embodiment of the present invention.

Figure 5 schematically shows a carrier unit for the anaerobic tank of the sewage treatment plant according to the present invention, Figure 6 is a partial cutaway view of the first support portion of Figure 5, Figure 7 is an enlarged portion A of Figure 6 8 is an exploded perspective view of a first support part forming the carrier unit for the anaerobic tank of the sewage treatment facility according to the present invention, and FIG. 9 is a second support part forming the carrier unit for the anaerobic tank of the sewage treatment facility according to the present invention. 10 is a view showing a state before binding as an anaerobic tank carrier unit of a sewage treatment plant according to the present invention, and FIG. 11 shows a fixture into which an anaerobic tank carrier unit shown in FIG. 5 is slide-inserted. It is.

5 to 10, the anaerobic tank carrier unit 100 of the sewage treatment plant according to the present invention is provided with a plurality of first support portion 110 is provided spaced apart from each other, the first support portion spaced apart from each other A plurality of second support parts 120 coupled to 110 to form an opening together with the first support part 110 and the first support part 110 and the second while reciprocating between the first support parts 110. It comprises a linear porous contact medium 130 provided in the opening formed by the support 120. The contact medium 130 is preferably a porous form having a plurality of concave grooves on the surface. The present inventors manufactured the contact filter 130 by pressurizing and heating the waste tire powder.

The two first support parts 110 are positioned to be spaced apart from each other in the vertical direction, and the two second support parts 120 are positioned to be spaced apart in the left and right directions, and the second support parts 120 are connected to both ends of the first support part 110. As a result, a rectangular opening is formed by the two first supporting parts 110 and the two second supporting parts 120, and the contact medium 130 is positioned in the opening.

As shown in FIG. 8, the first support part 110 has a plate shape and a first support member 1101 having a plurality of winding protrusions 1103 to which the contact media 130 are wound to protrude to one side, and a plate shape. And a second coupled to the first support member 1101 by the coupling means 101 in the direction in which the winding protrusion 1103 is formed, thereby preventing the contact media 130 wound around the winding protrusion 1103 from being separated. It consists of a support member 1102. The coupling means 101 forms coupling holes 1109 at both ends of the first support member 1101, and coupling holes 1108 at both ends of the second support member 1102, and supports the first support. After the member 1101 and the second support member 1102 are positioned to face each other as shown in FIG. 8, the member 1101 and the second support member 1102 may be coupled to each other by inserting bolts into the coupling holes 1108 and 1109. The bolt is integrally attached to both ends of the first support member 1101 or the second support member 1102, and the bolt is inserted into both ends of the second support member 1102 or the first support member 1101. A ball may be formed and the bolt may be fastened with a nut.

As shown in FIG. 9, coupling holes 123 are formed at both ends of the second support part 120, so that the second support part 120 is disposed between the first support member 1101 and the second support member 1102. The first support part 110 and the second support part 120 may be coupled to each other in a structure in which a bolt is inserted into the coupling holes 1108, 123, and 1109 and fastened by a nut to be coupled thereto.

Two first supporting members 1101 and two second supporting members 120 are joined to form an opening, and as shown in FIG. 10, a linear porous contact medium 130 is formed on the winding protrusion 1103. It is wound so as to reciprocate between the first support member 1101 is provided spaced apart from each other. In this case, as shown in FIG. 9, the outermost contact filter 130 may be caught by the plurality of protrusions 121 protruding to one side while being spaced apart in the longitudinal direction from the second support part 120.

As shown in FIG. 10, both ends of the contact medium 130 are fixed to the first support member 1101. Of course, both ends of the contact medium 130 may be fixed to the second support part 120. As illustrated in FIG. 8, the first support member 1101 includes a fixing member 1105 having a recess 1107 formed in a recessed side of the winding protrusion 1103. It is possible to fix the end of the contact member 130 by inserting the end of the contact member 130 in the fixing groove 1107 and forming a knot in the protruding portion, or by holding a part projected by the clip. The fixing groove 1107 may be formed as a through hole. As shown in FIG. 6, it is preferable to form the fixing groove 1107 in the direction to be directed after the contact medium 130 is bound.

As described above, the contact filter 130 is wound around the opening formed by the first support member 1101 and the second support part 120 to the winding protrusion 1103, and then reciprocally provided between the first support member 1101. 5, 6, and 7, the contact member 130 adjacent to each other is bound by the binding member 135 to form a lattice structure. The binding member 135 may be made of metal wire or synthetic resin. When the binding is completed, the second support part member 1102 is coupled to the direction in which the winding protrusion 1103 of the first support member 1101 protrudes to complete the manufacture. It is also possible to bind the contact media 130 after the second support member 1102 is combined.

The contact medium 130 is formed in a ring shape in the above, and the two sides of the plurality of ring-shaped contact medium 130 is installed so as to be caught by the winding projection (1103) of the first support member 1101 is provided spaced apart from each other. After that, it is also possible to bind the adjacent contact media 130 to form a lattice shape. When the contact medium 130 is in a ring shape, a separate fixing member for fixing the contact medium 130 is not necessary.

When the production of the anaerobic tank carrier unit 100 is completed as described above, at least one anaerobic tank carrier unit 100 is installed in the three-dimensional fixing frame 200 formed with openings on six sides. The fixing frame 200 is provided with a plurality of guide projections 210 forming a pair of four facing each other, the anaerobic tank carrier unit 100 is inserted is installed between the guide projections 210. The guide protrusion 210 is preferably formed to have a structure to support the carrier unit 100 for the anaerobic tank in the upper and lower spaced up and down. The fixing frame 200 may be made of metal or synthetic resin.

The fixing frame 200 is inserted into the anaerobic tank, and one or more anaerobic carrier units 100 are inserted into the guide protrusions 210.

Below is a summary of the manufacturing procedure of the anaerobic tank carrier unit 100 of the sewage treatment plant according to the present invention is a plate-like and protruding to one side of the anaerobic carrier unit unit 100 of the sewage treatment plant. The plurality of first support members 1101 having a plurality of winding protrusions 1103 wound around the contact filter 130 are positioned to be spaced apart from each other, and both ends of the plurality of second support portions 120 are supported by the support members ( Coupling to 1101 to form a rectangular opening (ST-110); One end of the linear contact medium 130 is fixed to the first support member 1101 and wound around the winding protrusion 1103 provided in the first support member 1101 to reciprocate between the support members 1101. Fixing the other end to the support member 1101 (ST-120); Coupling the plate-shaped second support member 1102 to the first support member 1101 in the direction in which the winding protrusion 1103 protrudes, thereby preventing the contact material 130 wound around the winding protrusion 1103 from being separated ( ST-130); A step (ST-140) may be performed by binding the adjacent contact media 130 to each other while reciprocating the first support member 1101 to form a lattice shape.

After the step (ST-140) to form a lattice by binding the contact medium 130 adjacent to each other while reciprocating the first support member (1101) in the above. Coupling the plate-shaped second support member 1102 to the first support member 1101 in the direction in which the winding protrusion 1103 protrudes, thereby preventing the contact material 130 wound around the winding protrusion 1103 from being separated ( It is also possible to manufacture with (ST-130).

In the case of the conventional carrier, the particles larger than the concave grooves formed in the carrier sink before the small particles, so that the removal of the small particles was not easy, but the present inventors have a plurality of anaerobic tank carrier units 100 in the fixing frame 200 as described above. After installing and confirming that the second support portion 120 is installed in the anaerobic tank so as to be positioned vertically, it was confirmed that the large particles are removed from the top and the small particles are removed from the bottom to effectively remove the small particles.

Although the present invention has been described above with reference to the drawings, the scope of the present invention is not limited thereto, and the scope obvious to those skilled in the art to which the present invention belongs should be interpreted as belonging to the rights of the present invention.

1 is a diagram illustrating an example of a sewage treatment apparatus.

Figure 2 is shown to explain another example of the sewage treatment apparatus.

Figure 3 shows an anaerobic tank carrier accommodated in the anaerobic tank of the sewage treatment apparatus shown in Figs.

Figure 4 is a perspective view showing a contact medium forming the carrier for the anaerobic tank of the sewage treatment facility shown in FIG.

Figure 5 schematically shows a carrier unit for the anaerobic tank of the sewage treatment plant according to the present invention.

FIG. 6 is a partial cutaway view of the first support portion of FIG. 5.

FIG. 7 is an enlarged view of a portion A of FIG. 6.

Figure 8 is an exploded perspective view of the first support portion constituting the carrier unit for the anaerobic tank of the sewage treatment plant according to the present invention.

Figure 9 shows a second support forming the carrier unit for the anaerobic tank of the sewage treatment plant according to the present invention.

Figure 10 shows the state before binding as a carrier unit for the anaerobic tank of the sewage treatment plant according to the present invention.

FIG. 11 illustrates a fixture into which a carrier unit for an anaerobic tank of the sewage treatment facility shown in FIG. 5 is inserted.

Claims (8)

As an anaerobic tank carrier unit (100) provided with at least one anaerobic tank of the sewage treatment apparatus, a plurality of first support parts 110 are spaced apart from each other, and both ends are spaced apart from each other and coupled to the first support part (110). A plurality of second support parts 120 forming an opening together with the first support part 110, and formed by the first support part 110 and the second support part 120 while reciprocating between the first support parts 110. It includes a linear porous contact medium 130 provided in the opening; The first support part 110 is plate-like and protrudes to one side, and includes a first support member 1101 having a plurality of winding protrusions 1103 to which the contact media 130 is wound, and a plate-like coupling means 101. The second support member 1102 is coupled to the first support member 1101 in the direction in which the winding protrusion 1103 is formed to prevent the contact media 130 wound around the winding protrusion 1103 from being separated. ; The contact media 130 is reciprocally provided between the first support 110 while being wound around the winding protrusion 1103 provided on the first support member 1101 positioned to be spaced apart from each other, and the contact media positioned adjacent to each other ( 130 is provided with a plurality of binding members 135 to bind to each other, the contact medium 130 is characterized in that the lattice shape in the opening formed by the first support 110 and the second support 120. Carrier unit for anaerobic tank of the sewage treatment plant (100). As an anaerobic tank carrier unit (100) provided with at least one anaerobic tank of the sewage treatment apparatus, a plurality of first support parts 110 are spaced apart from each other, and both ends are spaced apart from each other and coupled to the first support part (110). The plurality of second support parts 120 forming an opening together with the first support part 110, and both sides of the first support part 110 and the second support part are caught by the winding protrusions 1103 of the first support part 110. It includes a plurality of ring-shaped porous contact medium 130 provided in the opening formed by (120); The first support part 110 is plate-like and protrudes to one side, and includes a first support member 1101 having a plurality of winding protrusions 1103 to which the contact media 130 is wound, and a plate-like coupling means 101. The second support member 1102 is coupled to the first support member 1101 in the direction in which the winding protrusion 1103 is formed, thereby preventing the contact media 130 caught on the winding protrusion 1103 from being separated. , A plurality of binding members (135) for binding the contact media (130) located adjacent to each other; The contact medium 130 is an anaerobic tank carrier unit 100 of the sewage treatment facility, characterized in that the lattice shape in the opening formed by the first support 110 and the second support 120. The method of claim 1, wherein the first support member 1101 further comprises a fixing member 1105 is formed with a fixing groove 1107 is fixed to the end of the contact member 130, the contact member 130 ) Both ends of the anaerobic carrier unit 100 of the sewage treatment plant, characterized in that fixed to the first support (110). delete According to claim 1 or 2, wherein the end of the second support portion 120 is located between the first support member 1101 and the second support member 1102 is coupled, the second support portion 120 is A carrier unit for an anaerobic tank of a sewage treatment facility, characterized in that it comprises a plurality of protrusions 121 are projected to one side spaced apart in the longitudinal direction and the contact medium 130 is caught. In the anaerobic tank carrier provided in the anaerobic tank of the sewage treatment apparatus, a fixing frame 200 having at least one pair of guide protrusions 210 provided to be spaced from each other, and a pair of guide protrusions 210 of the fixing frame 200. It consists of at least one carrier unit for anaerobic tank described in claim 1 or 2 located between; The contact medium 130 is a carrier for anaerobic tank, characterized in that by manufacturing the waste tire powder. A plurality of first support members 1101 having a plurality of winding protrusions 1103 having a plate shape and protruding to one side and wound with a linear contact filter 130 are spaced apart from each other, and a plurality of second support portions 120. Coupling both ends of the support member 1101 to form a rectangular opening (ST-110); One end of the linear contact medium 130 is fixed to the first support member 1101 and wound around the winding protrusion 1103 provided in the first support member 1101 to reciprocate between the support members 1101. Fixing the other end to the support member 1101 (ST-120); Coupling the plate-shaped second support member 1102 to the first support member 1101 in the direction in which the winding protrusion 1103 protrudes, thereby preventing the contact material 130 wound around the winding protrusion 1103 from being separated ( ST-130); A method of manufacturing an anaerobic tank carrier unit (100) comprising a step (ST-140) of forming a lattice by binding adjacent contact media (130) to each other while reciprocating the first support member (1101). A plurality of first support members 1101 having a plurality of winding protrusions 1103 having a plate shape and protruding to one side and wound with a linear contact filter 130 are spaced apart from each other, and a plurality of second support portions 120. Coupling both ends of the support member 1101 to form a rectangular opening (ST-110); One end of the linear contact medium 130 is fixed to the first support member 1101 and wound around the winding protrusion 1103 provided in the first support member 1101 to reciprocate between the support members 1101. Fixing the other end to the support member 1101 (ST-120); Binding the adjacent contact media 130 to each other while reciprocating the first support member 1101 to form a lattice shape (ST-140); Coupling the plate-shaped second support member 1102 to the first support member 1101 in the direction in which the winding protrusion 1103 protrudes, thereby preventing the contact material 130 wound around the winding protrusion 1103 from being separated ( ST-130) method for producing an anaerobic carrier unit 100, characterized in that consisting of.

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