KR20110092467A - Linear motion mixers for wastewater applications - Google Patents

Abstract

PURPOSE: A linear movement stirring apparatus for a digestion bath is provided to prevent the overload of a driving motor by protecting a disk impeller from fiber, thread, and hair. CONSTITUTION: A driving unit(110) generates driving force required for mixing and stirring sludge. An elevating unit(120) is longitudinally expanded to the inside of a digestion bath, in which the sludge is stirred, and linearly moves according to the driving operation of the driving unit. A stirring unit(130) applies vertical flowing force to the mixing and stirring operation of sludge in a digestion bath. A cam roller is eccentrically installed to a rotational plate. A rotating plat is installed to be capable of rotating by the driving motor.

Description

Linear Motion Mixers for Wastewater Applications

The present invention relates to a linear motion stirrer for the digester, and more particularly, it is possible to stir the sludge while reciprocating the disc impeller installed in the digester in a vertical direction by a predetermined distance to maintain a constant stirring efficiency as well as the disk impeller The present invention relates to a linear motion stirrer for a digester that prevents fiber, yarn, hair, etc. from being entangled to prolong the life by preventing overload of the driving motor.

In general, the agitation of the sludge is to mix and mix the existing digester sludge with a large amount of anaerobic digestion microorganisms present in the anaerobic digester and the newly introduced concentrated sludge evenly, so that the anaerobic digestion microorganism is in contact with the newly introduced sludge to promote digestion. In addition, it is very important to prevent the formation of deposits in the digester.

In the anaerobic digester, there are a method of using a digestive gas and a method of using a mechanical stirrer. A method of using a digestive gas having a simple structure is widely used.

In the method using the digestion gas, the digestion gas is blown into the anaerobic digestion tank by using a high pressure blower, and the sludge in the digestion tank is stirred and mixed by using the disturbance generated when the gas floats the sludge layer in the digestion tank.

As the stirring method using the digestion gas, a method of intensively ejecting the digestion gas from the lower center of the anaerobic digestion tank and a method of ejecting the digestion gas sequentially from various places in the digestion tank are used. It is difficult to completely mix in an anaerobic digester with a high concentration such that there is a test result that there is a dead zone that is incomplete and more than 60% of the digester is not stirred.

In addition, high pressure gas compressors and gas circulation piping are required for agitation of anaerobic digestion tanks by extinguishing gas, and care must be taken in maintenance because gas leakage may cause an explosion in the compressor or piping.

Conventional agitation apparatus using digestive gas causes the digestive gas to be intensively ejected from the central bottom of the digester, causing the digester sludge to rise from the bottom of the inside of the digester by the force of the flotation, which causes the circulation to descend. The method prevails.

However, in this method, when the concentration of digester sludge is increased, the viscosity of digester sludge is also increased, and the up and down circulation of the sludge is not good, and congestion is likely to occur, and as a result, the digestion is not easy.

Recently, centrifuges are used to concentrate sludge, so the concentration of concentrated sludge is 4 to 6%. Thus, it is difficult to maintain high extinguishing efficiency with a circulating agitator by gas ejection from the center. It is true.

Another method is to install gas ejection pipes in various places in the digester and to agitate the gas at the same time. This method is uneconomical because the gas compressor and piping are large because the amount of digestive gas supplied must be large. to be. Alternatively, the installation of gas ejection pipes in various places in the digester is the same as described above, but the gas is ejected from only one gas ejection pipe at a time by supplying the digestion gas in turn by sequentially turning from each gas ejection pipe. In some cases, a method has been used in which the required amount of extinguishing gas supply can produce at least a good stirring effect.

Although these methods have a relatively good agitation effect, there is still a possibility of stagnation between the gas ejection pipes installed at various places, which makes it difficult to locate the gas ejection pipe and increases the number of gas ejection pipes. There is a problem that it is difficult to prevent the gas leakage of the distribution device for sequentially supplying gas to each gas ejection pipe.

Therefore, in recent years, the method of stirring the sludge is changing from the method of using the digestion gas to the method of using a mechanical stirring device. As shown in FIG. 1, the mechanical stirring device includes a drive motor 12 installed at an outer upper end of the anaerobic digester 10, and one end of the anaerobic digester 10 protrudes out of the drive motor 12. Is connected and consists of a rotary shaft 14 is installed along the center of the anaerobic digester 10 and the rotary blades 16 coupled to the rotary shaft 14.

The most distinctive feature of the mechanical stirring device having this configuration is that the structural design is possible under the most ideal conditions for the environment (volume, sludge concentration, etc.) of the digester.

The mechanical stirring device is such that the rotary shaft 14 and the rotary blade 16 is rotated for the stirring, the foreign material (string, fiber, hair, etc.) in the digester 10 is easily tangled to the rotary blade 16. do. Therefore, the stirring efficiency drops sharply, and mechanical problems such as overload of the driving motor 12 and bearing damage occur. At this time, there is a problem that the maintenance cost of dismantling and cleaning the rotary blade 16 takes a lot, which is not solved in the current stirrer.

And, until now, the dewatered cake treated through anaerobic sludge is disposed of by landfill, incineration or ocean dumping. However, in recent years, in the landfill facility, due to the prohibition of direct landfilling of sludge, the water content is reduced by mixing with other waste such as construction waste and using it as a landfill material. In Korea, the shortage of landfills is accelerating, and in addition, a complicated water treatment process for treating the leachate flowing out of the landfill facility is required.

In case of incineration, the water content of dehydrated sludge should be lowered to about 20 ~ 30%, and supplementary fuel is required as the heat of sludge is insufficient.In order to remove air pollutants generated during incineration, There are many problems such as the need for odor removal facilities.

In addition, research has been conducted on the reduction of organic sludge by using the composting method and recycling on agricultural land.However, the sludge itself is not partially composted due to lack of carbon and calories, or other substances such as sawdust, manure or food waste. After mixing with the situation is composting.

The ocean dumping method is the simplest dumping method at present, but since 2011, sludge offshore dumping has been completely banned due to the pollution of nearby waters and the strengthening of marine dumping under the London Convention.

Therefore, the mechanical agitator is designed for the anaerobic digester's environment (volume, sludge concentration, etc.) in the most ideal condition to stir the sludge most efficiently, thereby dramatically reducing the amount of dehydrated cake and improving the quality of biogas (Bio-). There is an urgent need for a method to generate gas.

An object of the present invention is to keep the stirring efficiency constant and to prevent the fiber, thread, hair and the like from being tangled in the disk impeller while allowing the sludge to be stirred while reciprocating the disk impeller installed in the digester by a predetermined distance in the vertical direction. It is to provide a linear motion stirring device for the digester to prevent the overload of the drive motor to extend the life.

The present invention for achieving the above object is mounted detachably on the upper portion of the digester for receiving the sludge drive means for converting the rotational movement of the drive motor to linear movement to generate the driving force required for mixing and stirring while moving the sludge up and down; An elevating means connected to the driving means and extending in the digester in which the sludge is accommodated so as to linearly reciprocate up and down depending on whether the driving means is driven; And a stirring means detachably mounted at a lower end of the elevating means, to directly and vertically apply a force to mix and stir the sludge in the digestion tank.

The driving means is a rotary plate installed to be rotated by a drive motor and the cam roller is installed eccentrically to the rotary plate and the cam roller is inserted to install the power to transfer power while moving up and down linearly by the eccentric rotation of the cam roller It is characterized in that the top die is formed with a cam groove forming a long hole in the horizontal direction to enable the movement and the LM guide is installed on both sides of the top die to guide the vertical movement of the top die.

The elevating means is a lifting shaft that linearly reciprocates up and down according to whether the driving means is driven, and a hollow support shaft installed around the lifting shaft to support the linear reciprocating motion up and down of the lifting shaft, and the support shaft and the lifting shaft. It is characterized by consisting of a bearing provided between the shaft.

The stirring means is a disk impeller, the disk impeller is characterized in that it is made of any one of a ring shape, disk shape, cross shape and radial shape.

The disk impeller is characterized in that the holes further penetrate in the vertical direction to form a predetermined interval.

The outer end of the disk impeller is characterized in that the auxiliary impeller is further installed.

According to the present invention, since the disk impeller agitates sludge in the digester while reciprocating in the vertical direction, there is no entanglement such as fiber, thread, hair, etc., so that the driving motor is not overloaded, and the stirring efficiency is kept constant. There is. In addition, the present invention has the effect of saving energy because the cam-type design can receive the power transmitted from the drive motor with high efficiency and transmit it with a high agitation effect with less driving force. In particular, the present invention can be produced in a simple structure and light weight structure has an effect that can facilitate the installation and operation to facilitate the glass management.

1 is a view showing a mechanical stirring device for a conventional digester,
2 is a view showing a linear motion stirring apparatus for the digester according to the present invention,
3 is a view showing a driving means provided in the stirring device shown in FIG.
FIG. 4 is a side view showing the main configuration of the drive means shown in FIG. 3; FIG.
5 is a view showing a stirring means provided in the stirring device shown in FIG.
6a to 6i are modified examples showing various shapes of the disk impeller provided in the stirring means shown in FIG.

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

As shown, the linear motion stirring apparatus for the digester according to the present invention is provided with a drive means (110). The driving means 110 is detachably mounted on the upper part of the digester 100 for receiving the sludge to convert the rotational motion of the drive motor 112 into a linear motion to generate the driving force necessary for mixing and stirring while moving the sludge up and down. will be.

The driving means 110 is a drive motor 112 is installed on the upper portion of the digester 100 and the rotating plate 114 is installed to be rotated by the drive motor 112. In addition, the cam roller 115 is installed eccentrically on the rotary plate 114, the cam roller 115 is eccentrically rotated by the rotation of the rotary plate 114, the upper and lower by the eccentric rotation of the cam roller 115 Top die 116 is installed to transmit power while performing a linear motion.

The top die 116 is provided with a reciprocating block 115a for inserting and reciprocating the cam roller 115 and providing a guide part for reciprocating the reciprocating block 115a. A cam groove 116a forming a long hole in a horizontal direction is formed, and LM guides 118a and 118b are installed at both sides of the top die 116 to guide the vertical movement of the top die 116. do.

As shown, the linear motion stirring apparatus for the digester according to the present invention is provided with a lifting means (120). The elevating means 120 is connected to the driving means 110 is extended to the inside of the digester 100 in which the sludge is accommodated to linearly reciprocate up and down depending on whether the driving means 110 is driven. .

The lifting means 120 is a lifting shaft 122 and the lifting movement of the lifting shaft 122 is installed to the lower portion of the top die 116 to reciprocate by a predetermined distance in the vertical direction by the drive means 110 It consists of a support shaft 124 of the hollow structure that can be installed to support the bearing 126 is installed between the support shaft 124 and the lifting shaft 122.

As shown, the linear motion stirring apparatus for the digester according to the present invention is provided with a stirring means (130). The stirring means 130 is detachably mounted at the lower end of the elevating means 120 to impart a direct up and down flow force for mixing and stirring the sludge in the digester 100.

The stirring means 130 is provided at the lower end of the lifting shaft 122 is composed of a disk impeller 132 for directly stirring the sludge.

According to the present invention, the lifting shaft 122 is installed to be disposed vertically in the interior of the digester 100 is to reciprocate by a predetermined distance in the vertical direction by the drive means 110, the disk impeller 132 Is fixed to the lower end of the elevating shaft 122 is stirring the sludge in the digester while reciprocating by a predetermined distance in the vertical direction by the elevating shaft 122.

The disk impeller 132 as described above may be formed in various shapes as shown in FIGS. 6A to 6H. That is, as shown in FIGS. 6A and 6B, a ring-shaped disk impeller 132a may be formed, and as shown in FIG. 6B, holes 134 may be formed to penetrate the disk impeller 132a in the vertical direction. have.

6C and 6D, a disk-shaped disk impeller 132b may be formed, and as shown in FIG. 6C, holes 134 may be formed in the disk impeller 132b to vertically penetrate. The resistance can be reduced when reciprocating in the direction.

As shown in FIGS. 6E to 6F, a cross-shaped disc impeller 132c may be formed, and as shown in FIG. 6F, holes 134 may be formed in the disc impeller 132c to reciprocate in the vertical direction. It can reduce the resistance when moving.

6G to 6H may be formed as a radial disk impeller (132d), as shown in Figure 6h to form a hole 134 penetrating in the vertical direction in the disk impeller 132d to reciprocate in the vertical direction It can reduce the resistance when moving.

In particular, as illustrated in FIG. 6I, auxiliary impellers 136 may be further installed at the outer end of the disk impeller 132.

According to the present invention, since the sludge is agitated while the ring-shaped disk impeller 132 is reciprocated in the vertical direction, the disk impeller 132 is free of entanglement such as fiber, thread, hair, etc., which is the driving motor. By preventing overload of 112, the stirring efficiency can be kept constant. In particular, the present invention has no clogging due to the agitation of the sludge while reciprocating in the up and down direction, and can successfully perform both the maintenance cost and the operation efficiency of the sludge. It can reduce and shorten residence time.

In addition, the linear motion stirring device for the digester according to the present invention has an energy saving effect. That is, the present invention is capable of efficient energy transfer because the cam-type design receives and transmits the force transmitted from the driving motor 112 with high efficiency. Therefore, a large gearbox is not required as in the conventional stirrer, and the shaft balance problem can be solved according to the excitation, and thus, a larger stirring effect can be obtained with less driving force than the conventional stirrer.

100-Digester 110-Drive
112-Drive motor 114-Turntable
115-Cam Roller 116-Top Die
118a, 118b-LM Guide 120-Lifts
122-Lifting shaft 130-Stirring means
132-Disc Impeller 136-Auxiliary Impeller

Claims (6)

A driving means detachably mounted on an upper portion of a digester for accommodating sludge and converting a rotational motion of the drive motor into a linear motion to generate a driving force necessary for mixing and stirring the sludge up and down;
An elevating means connected to the driving means and extending in the digester in which the sludge is accommodated so as to linearly reciprocate up and down depending on whether the driving means is driven; And
And a stirring means detachably mounted at a lower end of the elevating means and configured to give a direct up and down flow force to mix and stir the sludge in the digestion tank. The cam according to claim 1, wherein the driving means includes a rotary plate installed to be rotated by a drive motor, a cam roller installed eccentrically on the rotary plate, and a cam to be able to transmit power while vertically moving by an eccentric rotation of the cam roller. Digestion, characterized in that consisting of a top die having a cam groove forming a long hole in the horizontal direction to insert the roller is inserted into the roller and an LM guide installed on both sides of the top die to guide the linear movement of the top die Quiet linear motion stirring device. According to claim 1, wherein the lifting means is a lifting shaft for linear linear reciprocating movement up and down depending on whether the driving means and the hollow support shaft is installed to surround the lifting shaft to support the linear reciprocating movement up and down of the lifting shaft And a bearing provided between the support shaft and the lift shaft. According to claim 1, wherein the stirring means is a disk impeller, the disk impeller linear motion stirring apparatus for a digester, characterized in that formed in any one of the shape of a ring, disk, cross and radial. According to claim 4, The disk impeller is a linear motion stirring device for the digester, characterized in that the holes further penetrate in the vertical direction at a predetermined interval. According to claim 4 or 5, wherein the outer end of the disk impeller auxiliary impeller further comprises a linear motion stirring apparatus for the digester, characterized in that further installed.

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