KR100855465B1 - Twist link structure for supernatant liquid decanter of sequential batch reactor - Google Patents

Abstract

A twist link structure for a supernatant decanter of a sequencing batch reactor is provided to reduce manufacturing and maintenance costs, and maintain and manage operations conveniently without additionally discharging contaminants by simplifying the twist link structure such that a connecting pipe is rotated in a state that rollers are surface-contacted with a rail. In a twist link structure for a supernatant decanter of a sequencing batch reactor, the twist link structure comprising a connecting pipe(20) installed in the sequencing batch reactor to transfer supernatant sucked from a suction pipe, and a discharge pipe(60) which is supported to a link support(10) fixed to an inner face of the reactor, and which is connected to the connecting pipe to discharge supernatant, the twist link structure further comprises: a rail supporting pipe(50) of which a flange(51) is fixed to one face of the link support, and with which one side of the discharge pipe is joined through the link support; a rail(30) which is inserted onto an outer side of the rail supporting pipe and rotated from side to side, and of which one side is joined with a flange(21) formed on the connecting pipe; and a plurality of rollers(40) fixed to the link support by supporting shafts(43) and inserted between guides(31) formed on an outer periphery of the rail. Further, an O-ring(33) for maintaining airtightness is installed inside the rail.

Description

Twist Link Structure for Supernatant Liquid Decanter of Sequential Batch Reactor

The present invention relates to a twisted link structure of a continuous batch symbol water discharge apparatus, and more particularly, to a discharge device for discharging symbolic water purified from a sequential batch reactor (SBR) reactor for purifying wastewater. It relates to a twisted link structure of a continuous batch supernatant discharge device for coupling and rotation of connected connectors.

Treatment of sewage, sewage, or wastewater is usually performed by a chemical condensation, sedimentation method, activated sludge method, or electrochemical treatment method for physical or chemical solid-liquid separation. As an activated sludge process, the SBR process can perform the functions of aeration, sedimentation, and discharge in one reactor, which eliminates the need for primary and secondary sedimentation tanks as well as biological oxygen without sending return sludge. In addition to the removal of BOD, there is an excellent effect on the removal of nitrogen and phosphorus. Therefore, it is widely used to remove nitrogen and phosphorus, which are the causes of eutrophication, on the coast or lake.

As the conventional activated sludge method, a continuous batch type (SBR) method is applied to a reaction tank for discharging the treated water from the reaction tank. Referring to the side view of FIG. 2) is installed, the suction means 4 is connected to the suction pipe 4 and the connection pipe 5 by the rope (3). And the twisted link 6 fixed to the link support 7 to the inner side of the reaction tank 1 is couple | bonded. The twisted link 6 is connected to the connecting pipe 5 and the discharge pipe 8, the connecting pipe 5 is configured to be rotated up and down at a predetermined angle from the fixed discharge pipe (8).

Referring to the cross-sectional view of FIG. 2, the twisted link 6 has a structure in which the rotary member 100 is integrally coupled with the connecting tube 5, and the fixing member 103 is integrally coupled with the discharge tube 8. The connection pipe 5 and the discharge pipe 8, and the rotating member 100 and the fixing member 103 is combined. The rotating member 100 has a space portion formed inside the surface coupled with the fixing member 103, the space portion is provided with a rotating ring 107 fixed by the rotating member 100 and the fixing bolt 102, the link The support ring 7 and the fixing member 103 is provided with a fixing ring 108 fixed by a fixing bolt 105. The rotary ring 107 and the stationary ring 108 are in surface contact with the bearing 109 interposed therebetween. And the space part divided by the rotating ring 107 and the fixed ring 108 is filled with oil, such as grease. Oil is continuously supplied through oil holes 101 and 104 from an oil supply pipe (not shown). Reference numeral 106 denotes a sealing member.

The twist link of the discharge device has a structure in which the connection pipe 5 is rotated at an angle from the discharge pipe 8 to which the connection pipe 5 is fixed by the action of the oil and the bearing 109 filled in the space. By the discharge device, the treated water in the reactor is discharged only relatively clear symbolic water, except for the suspended matter suspended in the upper part of the reactor. Also, the discharge device is made of stainless steel for rust prevention.

The twisted link of the conventional discharge device is made by oil and bearings filled in the rotating member so that the connecting pipe rotates in the discharge pipe fixed to the link support, and in particular, the continuous supply of oil is caused by oil leakage. There is a problem that leads to contamination of the purified symbol water, and to increase the hassle and cost of the maintenance and reliability of the twisted links according to the supply of oil.

The present invention is to solve the above problems, an object of the present invention is to provide a twisted link structure of the continuous batch symbol water discharge device for the rotation of the connector by the surface contact of the roller and rail.

The present invention, in order to achieve the above object, is installed in a continuous batch (SBR) reaction tank, and is supported by a connecting pipe for transmitting the symbol water sucked from the suction pipe, and a link support fixed to the inner surface of the reaction tank, In the twisted link structure of the continuous batch symbol water discharge device provided with a discharge pipe for discharging the symbol water, a flange is fixed to one side of the link support, the rail support pipe is coupled to one side of the discharge pipe through the link support; A plurality of rollers inserted between the rail support pipe and rotated left and right, and coupled to a flange formed on a connection pipe to one side, and fixed to the link support with a support shaft, and inserted into a guide formed on an outer periphery of the rail. Characterized by providing a twisted link structure of the continuous batch symbol water discharge device made, including.

The present invention by the above solution means, the twisted link structure to simplify the rotating structure by the surface contact of the roller and the rail, and does not discharge any contaminants, the effect of reducing the manufacturing and maintenance costs and the convenience of maintenance There is.

Hereinafter, as a preferred embodiment of the present invention, a twisted link structure of the continuous batch symbol water discharge apparatus will be described in detail.

Figure 3 is an exploded perspective view showing a twisted link structure of the continuous batch symbol water discharge apparatus according to the present invention, Figure 4 is a cross-sectional view.

First, the twisted link structure of the continuous batch symbol water discharge device of the present invention is a purification method by activated sludge method for treatment of sewage, sewage or wastewater, etc., and discharges the purified symbol water from the reactor using the continuous batch (SBR) method. It is a tween string structure of the connector to make. That is, the connecting pipe 20 is installed in the continuous batch reactor (SBR) reactor 1, and is to feed the symbol water sucked in the suction pipe (4). The discharge pipe 60 is fixedly supported by the link support 10 fixed to the inner side of the reaction tank 1, and is connected to the connection pipe 20 to discharge the symbol water.

The connecting pipe 20 and the discharge pipe 60 rotating at a predetermined angle are connected to the link support 10 by a twisted link.

The rail support tube 50 is a flange 51 is fixed to one side of the link support 10 fixed to the inner side of the reaction tank 1, and one side of the discharge pipe 60 is coupled through the link support 10. , The rail support pipe 50 is a ring-shaped pipe with a flange 51 is formed, the fixing member 53 through a plurality of through holes 52 formed in the flange 51 to a plurality of through holes formed in the link support 10. For example, it is fixed with bolts and nuts. The inner diameter of the rail support pipe 50 is the same as the inner diameter of the connecting pipe 20 and the discharge pipe 60, the ends of the connecting pipe 20 and the discharge pipe 60 is connected to the left and right sides of the rail support pipe (50).

The rail 30 is inserted from the outside of the rail support tube 50, and is coupled to the flange 21 formed on the connecting pipe 20 on one side, and the rail 30 has a ring shape and a guide 31 on the outer peripheral edge thereof. ) Is formed while the groove is formed inward. A plurality of fixing holes 32 are formed at one side of the rail 30 to be fixedly connected with a fixing member 23, for example, a fixing bolt through a through hole 22 formed in a flange 21 formed in the connecting pipe 20. Are integrated.

An o-ring 33 is provided on the inner surface of the rail 30 in contact with the outer surface of the rail support tube 50 for hermetic sealing. O-ring 33 is intended to facilitate the rotation of the connection pipe 20 while at the same time to prevent leakage of the symbol water and the treated water inside and outside the connection pipe 20 and the discharge pipe (60).

The roller 40 is fixed to the link support 10 by the support shaft 43, and is inserted and fixed between the guide 31 formed on the outer periphery of the rail 30, the roller 40 supports the rotation of the rail It is to guide. The roller 40 is inserted between the guides 31 of the rail support pipe 50, and the lower portion of the roller 40 has a spaced portion 41 for separating the roller 40 from the surface of the link support 10. Formed. The roller 40 passes through the through hole 11 formed in the support hole 42 and the link support 10, and the support shaft 43 is inserted into the roller 40, and the support shaft 43 is fixed by the nut 44. The support shaft 43 serves to support the roller 40 so that rotation is free. It is preferable that two or more rollers 40 are installed around the rail 30.

Although not shown in the twisted link of the symbol water discharge device of the present invention, it is preferable that the sealing pipe of various types for the airtightness of the connection pipe and the discharge pipe inside and outside.

The operation of the twisted link structure of the continuous batch symbol water discharge device of the present invention made as described above will be described.

First, in the side view of FIG. 1, when the solidified water is separated after various physical and chemical reaction treatments of the treated water in the reaction tank 1, suspended matter is suspended in the upper part of the treated water, and sludge is precipitated in the lower part, and the purified water is purified therebetween. The clear symbol water will be located. At this time, the symbol water is sucked into the discharge device, that is, the suction pipe (4) is discharged to the discharge pipe (8) via the connecting pipe (5).

When the symbol water starts to be discharged in the reaction tank 1 for a predetermined time, the water level of the reaction vessel is lowered, so that the connecting pipe 5 is lowered by the elevating action of the elevating means 2 connected by the connecting pipe 5 and the rope 3. Done. This is to control the lifting means (2) so that the floating matter other than the symbol water.

3 and 4, the discharge pipe 60 of the discharge device is fixed to the link support 10 by the rail support pipe 50 and the fixing member 53, the roller 40 is also It is fixed to the link support 10. At this time, when the connection is made while the tube 20 is rotated, the rail 30 fixed by the screw coupling to the flange 21 of the connector 20 is rotated. The rail 30 is in surface contact with the roller 40 located between the guides 31 while rotating. The roller 40 supports the rail 30 while being rotated in a direction opposite to the rail 30 about the support shaft 43 due to the friction caused by the rotation of the rail 30.

The inner surface of the rail 30 is provided with an O-ring 33 for sealing is in close contact with the outer surface of the rail support pipe 50 is made of airtight symbol water to be delivered to the connecting pipe 20 and the discharge pipe 60 It is prevented from leaking or the outside treated water flows into the connection pipe 20 and the discharge pipe (60).

While the invention has been shown and described in connection with specific embodiments thereof, it is well known in the art that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the claims. Anyone who has a can easily know.

1 is a side view showing a supernatant discharge device installed in a conventional continuous batch reactor.

2 is a cross-sectional view showing a twisted link of the conventional symbol water discharge apparatus.

3 is an exploded perspective view showing a twisted link structure of the continuous batch symbol water discharge device according to an embodiment of the present invention.

Figure 4 is a cross-sectional view showing a twisted link structure of the continuous batch symbol water discharge apparatus of the present invention.

♣ Explanation of symbols for the main parts of the drawing ♣

10: link support 11, 22, 52: through hole

20: connector 21, 51: flange

23, 53: fixing member 30: rail

31: guide 32: fixing hole

33: O-ring 40: roller

41: spaced part 42: support hole

43: support shaft 44: nut

50: rail support pipe 60: discharge pipe

Claims (2)

It is provided in a continuous batch (SBR) reactor, and a connection pipe for transmitting the symbol water sucked from the suction pipe, and a discharge pipe that is supported by a link support fixed to the inner surface of the reactor, connected to the connection pipe to discharge the symbol water In the twisted link structure of the continuous batch symbol water discharge device, A rail support tube 50 having a flange 51 fixed to one side of the link support 10 and penetrating through the link support 10 to which one side of the discharge pipe 60 is coupled; The rail support tube 50 is inserted into the outside and rotated left and right, and one side is coupled to the rail (30) formed in the connecting pipe 20, and Continuous batch symbol, characterized in that it comprises a plurality of rollers 40 are fixed to the link support 10 with a support shaft 43, inserted between the guide 31 formed on the outer periphery of the rail 30 Twist link structure of the water discharge device. The method of claim 1, Twist link structure of the continuous batch symbol water discharge device, characterized in that the O-ring (33) is provided on the inner surface of the rail 30 in contact with the outer surface of the rail support tube (50).

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