KR100711375B1 - Apparatus for separating an organic compounds of the upper part of settling tank - Google Patents

Abstract

The present invention relates to an apparatus for purifying various wastewater generated in a tin-plated steel sheet plant in a sedimentation tank, and when organic synthetic particles enter a sedimentation tank in a neutralization tank, operating a driving device and a collecting means in the sedimentation tank to trap organic synthetic particles. The present invention relates to an organic material particle separation treatment device in the upper part of the settling tank which flows down the slope and rotates the crushing brush to remove the condensed fine particles and sinks to the bottom of the settling tank.

Accordingly, the present invention in the sedimentation tank (1) for purifying the neutralized wastewater through the stirrer (104) connected to the supply unit 116, by combining the collecting wings (24) in a circular shape around the stirrer (104) Means for collecting the organic compound particles by folding the wings 24, the brush 44 is installed on the collecting means 10 to decompose the organic compound particles by the rotation of the brush 44 And means 70 for driving the collecting means 10 up and down.

Sedimentation tank, synthetic particles, waste water, cracker

Description

Separation apparatus for organic compound synthesis in upper part of sedimentation tank {APPARATUS FOR SEPARATING AN ORGANIC COMPOUNDS OF THE UPPER PART OF SETTLING TANK}

Figure 1a is a plan view showing a conventional common sedimentation tank;

Figure 1b is a plan view showing the production of particles flotation in the settling tank;

Figure 1c is a plan view showing the aggregated particles generated throughout the settling tank;

Figure 2 is a front view showing a conventional general sedimentation tank;

Figure 3 is a front view showing a sedimentation tank organic material particle separation treatment apparatus according to the present invention;

Figure 4 is a perspective view showing the core portion of the sedimentation tank organic material particle separation treatment apparatus according to the present invention;

5 is a perspective view of a collecting means according to the present invention;

6 is a state diagram showing an expanded state (a) and a folded state (b) of the collecting means according to the present invention;

7 is a perspective view showing a means for decomposing organic compound particles according to the present invention;

Figure 8a is a perspective view showing a drive support of the organic compound collecting apparatus according to the present invention; And

8b is a perspective view showing a driving power unit of the organic material composite particle collecting device according to the present invention.

Explanation of symbols on the main parts of the drawings

1 ........... Sedimentation tank 10 .......... Means of collection

12 .......... Wire Hanger 14 .......... Wire

16 .......... wire driven motor 24 .......... capture wings

26 ........ Support 28 .......... Induction Plate

32 ........ Outlet pipe 33 .......... Injury prevention guide plate

40 .......... Disassembling Means 44 .......... Brush

70 .......... Driving means 71 .......... Driving support

80 .......... Drive power 84 .......... Limit switch

100 ......... Conventional sedimentation tank 102 ......... Mixing chamber

104 ......... Agitator 118 ......... Drive motor

The present invention relates to an apparatus for purifying various wastewater generated in a tin-plated steel sheet plant in a sedimentation tank, and more specifically, by operating a driving device and a collecting means in the sedimentation tank when organic compound particles are introduced into the sedimentation tank in the neutralization tank. The present invention relates to a sedimentation tank upper organic material particle separation and treatment device which allows the particles to flow down along the inclined surface and rotates the crushing brush to remove the condensed particles and sinks to the bottom of the settling tank during the process.

In general, wastewater generated from tin-plated steel sheet equipment is classified into alkali wastewater used as raw material degreasing solution and acid wastewater, chromic acid, and phenol resin mainly generated in post-treatment processes. Thus, the wastewater transported from different collection tanks is subjected to chemical reactions such as oxidation and reduction depending on the components and then transferred to the neutralization tank. In the neutralization tank, the neutralized water transferred by the wastewater inlet pipe 116 from the neutralization tank 100 to the lower mixing chamber 102 is increased by the operation of the stirrer 104 by the drive motor 118, thereby increasing the mixing efficiency. As the sludge is discharged through the discharge port 106, the supernatant of the sludge is deposited into the lower part and is discharged through the discharge pipe 110 after the flow rate is adjusted through the wear unit 108. At this time, the supernatant is discharged after being adjusted to the environmental standard ph 6 ~ 8 through the sludge discharge pipe (112).

As shown in FIGS. 1 and 2, organic substances in alkaline wastewater generated in tin-plated steel sheets and organic substances in various additives are mixed and transferred to a neutralization tank, where some wastewater is mixed using a hydroxide precipitation method by adding slaked lime. When mixed, they are processed through mutually organic chemical reactions. During this process, traces of oil and organics that are not detected by the chemical analysis cause a synthesis reaction and are entangled with each other as they float to the upper portion of the precipitation tank mixing chamber 102. As the organic compound particles are introduced into the precipitation tank mixing chamber 102 from the neutralization tank, the sludge powder is generally deposited under the conventional precipitation tank 100 by a polymer, which is a polymer flocculant, The phenomenon in which the fine particles are coalesced into the upper layer of the conventional precipitation tank 100 and merges frequently occurs (FIGS. 1B and 1C).                         

This phenomenon contaminates the entire sedimentation tank, and the worker stirs and beats the rod using a long rod with a brush to decompose the coagulated particles. However, such work takes too much time and the risk of falling down to the bottom of the sedimentation tank is always present, and if the work is not performed in a timely manner, the synthetic particles overflow into the wear part 108 through the bottom of the spill prevention plate 114. There is a problem of over-flow. In addition, not only causes environmental pollution, but also causes a number of problems, such as impossible to treat the waste by the hydroxide precipitation method.

The present invention is to solve the problems as described above, to collect and decompose the aggregated particles synthesized with organic matter in the upper part of the sedimentation tank while operating the collecting means to settle down the sedimentation tank to facilitate sludge transport and dehydration, waste treatment It aims to make it smooth.

Another object of the present invention is to block the organic particles flowing in the wear portion through the bottom of the sedimentation tank leak prevention plate in advance to prevent environmental pollution and to eliminate the separate work of decomposing aggregated particles, thereby improving work efficiency and productivity It is to provide an organic material particle separation treatment apparatus for the upper part of the settling tank that can be planned.

As a constituent means for achieving the above object, the present invention provides a sedimentation tank for purifying neutralized wastewater through a stirrer connected to the supply unit,

Means for collecting organic synthetic particles by folding the collecting blades by combining the collecting wings in a circle around the stirrer;

Means for disposing the organic compound particles by rotating the brush by installing a brush on an upper portion of the collecting means; And

It is provided on the top of the stirrer and provides an organic material composite particle separation treatment apparatus, characterized in that composed of means for driving the collecting means up and down.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. Components having the same function in all the drawings use the same reference numerals and will not be repeated.

Figure 3 is a front view showing the sedimentation tank organic particle separation treatment apparatus according to the present invention, Figure 4 is a perspective view showing the core portion of the sedimentation tank organic compound separation treatment apparatus according to the present invention, Figure 5 is a perspective view of the collecting means according to the present invention And Figure 6 is a state diagram showing the expanded state (a) and folded state (b) of the collecting means according to the present invention, Figure 7 is a perspective view showing the decomposition means of organic compound particles according to the present invention, Figure 8a according to the present invention 8B is a perspective view showing the driving force of the organic synthetic particle collecting device according to the present invention.

 The apparatus of the present invention collects the organic synthetic particles formed in the upper part of the sedimentation tank (1) as shown in Figure 3 to collect the lower, collecting means for collecting the aggregated organic synthetic particles contained in the inside (10) And a decomposing means 40 for collecting and decomposing and decomposing aggregated organic synthetic particles and a driving means 70 for driving the entire collection means to move in and out of the water surface.

The collecting means 10 is installed in the settling tank 1 and is spread out in a circle around the axis of the stirrer 104 in the settling tank 1. The collecting wing 24 has a curved rectangular plate shape, and each collecting wing 24 has a c-shaped groove to be connected to the guide plate 28 made of steel on the center from the installed shape. By connecting the collecting blade 24 and the guide plate 28 through the pins using the connecting member 34, which has a hole penetrating at both ends, the collecting wings can move freely up and down. . The guide plate 28 is circular and forms a circular empty space at the center so that the stirrer 104 is positioned, and a passage between the outlet protection pipe 30 and the guide plate 28 formed on the stirrer 104. To form.

At the end of the inner circular hole of the guide plate 28 is installed a support 26 connected to the shaft between the drive motor 118 and the stirrer 104. From the connecting portion of the support 26 and the guide plate 28, the outlet pipe 32 for discharging the organic composite particles collected from the lower portion is formed in a cylindrical shape around the mixing chamber 102, the cylindrical outlet pipe In the lower part of the 32, an anti-floating guide plate 33 is formed to prevent the organic compound particles which are precipitated from rising again.

The outer end of the collecting wing 24 is equipped with a wire hook 12 to collect the particles and push them into the inside. The wire hanger 12 is installed at a plurality of collecting wings 24 at regular intervals, and installs a pulley 16 to allow the wire 14 to be driven well inside. The wire 14 is wound around the wire driving motor 20, the elastic spring 22 is installed in the middle of the wire 14 so that the wire itself has a restoring force.

Disassembly means 40 is located in the central portion of the guide plate 28 of the collecting means 10, the brush 44 is located on the upper guide plate 28, the lower axis of the guide plate 28 and the brush connected to the brush and The crusher box 41 is located.

The crusher box 41 is coupled to one side of the supply pipe 42 for flowing a portion of the wastewater flowing through the wastewater inlet pipe 116, the supply pipe 42 is installed adjacent to the rotary blade 46 supply pipe 42 Waste water from the) to rotate the rotary blade (46). The supply water is supplied to the crusher box 41 by opening the supply valve 43. The rotary blade 46 is connected to the brush 44 connected to the shaft 47 on the top of the crusher box 41 is installed so that the brush 44 to rotate by the rotation of the rotary blade. The shaft 47 is coupled to the crusher box 41 and the bearing block 45, and the supply pipe 42 is installed at the same time as the disassembly means of the collecting means 10 by installing a stretchable elastic pipe 48 Enable 40 to move at the same time. Discharge pipe 49 is installed in the lower portion of the crusher box 41 to discharge the neutralized waste water supplied for the rotary blade 46 to rotate continuously.

The drive means 70 is installed on the inner center of the outlet pipe 32, the drive support portion 71 is installed in contact with the drive rail 76 machined on the wall surface of the mixing chamber 102 and the upper portion of the support 26 The driving power unit 80 is connected to the driving force unit 80 to generate power for vertically moving the collecting means 10 through the fixed rack 81 by rotating the pinion 82 by the driving of a motor (not shown). Include.                     

The driving support part 71 uses the spring shaft 74 so that one side is coupled to the inner center of the outlet pipe and the other side is coupled to the driving wheel 72 so that the driving wheel 72 elastically drives the driving rail 76. Try to go up and down. The drive rail 76 is machined to support the drive wheels rising and falling on the wall surface of the mixing chamber 102. The drive wheel 72 may use a cylindrical roller type, which is supported by a spring shaft 74.

The driving power unit 80 symmetrically installs the pinion 82 at the upper portion of the support 26, and installs the rack 81 at a portion in contact with the pinion 82 to indicate the rotational power of the motor transmitted to the pinion. The collecting means 10 and the disassembling means 40 is switched to the up or down power for the vertical movement. Limit switches 84 are respectively provided at the upper and lower ends of the rack 81 to detect limit points of rising and falling of the pinion to control the operation of the motor.

Referring to the operation of the organic material particle separation treatment apparatus of the upper part of the sedimentation tank according to the present invention as described above are as follows.

When the driver recognizes that the organic compound particles are agglomerated in the upper part of the settling tank 1, power is applied to the motor to raise the collecting means 10 to rotate the pinion 82 of the driving means 70. The pinion 82 rotates along the rack 81 until it comes into contact with the limit switch 84 above the rack 81, and when the limit switch 84 detects the rise of the pinion 82, it is applied to the motor. Shut off the power. When the pinion 82 is raised, the support 26 connected thereto is also raised. The support 26, the guide plate 28 and the collecting vane 24 attached thereto are also raised and, after being raised, apply power to the wire driving motor 20 to wind the wire 14 on the wire drum 18. . The wire 14 elastically folds the collecting wing 24 inwardly by the elastic spring 22, which is the same as in FIG. 6A which shows the open state of the collecting means and FIG. 6B which shows the folded state of the collecting means. . Due to the folding of the collecting blades 24 by the wire 14, the aggregated synthetic particles in the upper part of the settling tank 1 are collected, and the collected synthetic particles flow down along the guide plate 28 of the collecting means 10. do.

When the organic compound particles are collected by the collecting means 10 and flow down along the guide plate 28, the supply valve 43 is opened to rotate the brush 44 of the decomposition means 40. Due to the hydraulic pressure of the inflow wastewater flowing through the supply pipe 42, the rotary blade 46 in the crusher box 41 is rotated, thereby rotating the brush 44 connected to the rotary blade 46 and the shaft. The organic synthetic particles aggregated by the rotating brush 44 are decomposed as the entangled particles fall, and are deposited in the bottom of the settling tank through the guide plate 28 and the outlet pipe 32. At this time, to prevent re-injury of the deposited particles and install the anti-floating guide plate 33 to trap the sludge.

An outflow protection pipe 30 is installed to prevent the decomposed organic compound from flowing down along the induction plate 28 and into the mixing chamber 102 of the settling tank. The induction part 31 installed in the outflow protection pipe 30 smoothly discharges the condensed synthetic particles introduced into the mixing chamber 102. The precipitated organic compound particles are transferred to the storage tank through the sludge discharge pipe 112 and then caked to be treated.

After the decomposed organic compound particles are precipitated, power is applied to the wire driving motor 20 of the collecting means 10 to release the wound wire 14, and power is supplied to the motor to reverse the pinion 82. do. The pinion 82 descends along the rack 81 and lowers the collecting means 10 to its original position, and the inflow of the feed water for operating the disintegrating means 40 is also stopped.

According to the present invention as described above, the collecting means 10 for collecting the aggregated organic synthetic particles and encapsulating it inside, and the decomposition means 40 for collecting and decomposing and decomposing the aggregated organic synthetic particles inside and outside the water surface. It is configured to include a drive means 70 for driving to the upper and lower, the sedimentation of the particles synthesized with organic matter in the upper part of the sedimentation tank sedimented under the sedimentation tank to facilitate sludge transport and dehydration and to facilitate waste treatment It is.

In addition, the present invention prevents environmental pollution by preventing the organic particles flowing in the wear portion through the lower portion of the sedimentation tank leak prevention plate in advance to prevent environmental pollution and to improve the work efficiency and productivity. There is a beneficial effect that can be done.

Claims (4)

In the sedimentation tank for purifying the neutralized wastewater through the stirrer connected to the supply, A means for collecting organic synthetic particles by folding the collecting blades by combining the collecting wings in a circle around the stirrer; A means for disposing organic synthetic particles by rotating the brush by installing a brush on an upper portion of the collecting means; And Separation apparatus for organic material composite particle separation of the upper part of the sedimentation tank, characterized in that configured to drive the collecting means up and down. According to claim 1, wherein the collecting means includes a support coupled to the rotating shaft of the stirrer and the drive motor; A guide plate supported by the support and for coupling a plurality of the collecting wings to the outside; A wire hook portion coupled to an outer side of the collecting wing and configured to hook a wire at a predetermined interval to the collecting wing; And And a wire driving motor for winding the wire, wherein the wire driving motor is configured to collect the aggregated organic compound particles by folding the collecting wing by winding the wire. According to claim 1, wherein the decomposition means is connected to the waste water inlet pipe supply pipe for introducing waste water; A rotary blade installed adjacent to the end of the supply pipe to rotate the brush by hydraulic pressure of the wastewater flowing through the supply pipe; And And a device for connecting the rotary blade and the brush to decompose the collected aggregated organic synthetic particles, including an axis for transmitting the rotation of the rotary blade to the rotation of the brush. The method of claim 1 wherein the drive means A drive support including a drive rail machined on a wall of the mixing chamber, a drive wheel for driving the drive rail up and down, and a spring shaft for supporting the drive wheel; And The support coupled to the rotation shaft of the stirrer and the driving motor, the rack engaged with the pinion and the pinion coupled with the support to convert the rotational movement of the pinion into the vertical reciprocating movement, and installed at the upper and lower ends of the rack to limit the shankdong limit of the pinion. And a driving power unit including a limit switch for detecting the organic material composite particle separation treatment apparatus, characterized in that configured to move the collecting means up and down.

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