KR20020024146A - centrifugal separator pouring into a chemical - Google Patents

Abstract

PURPOSE: Provided is a chemicals injector for a centrifugal separator, which can enhance the reaction and separation efficiency of floc by dual injector. CONSTITUTION: Total layout in draw 1 contains mainly a conventional centrifuge and a chemicals injector, which describes a centrifuge(10), a case(11), a rotating drum(12), a rotating shaft(13), a screw(14), a motor(15), a speed reducer(16), a main motor(17), a transferring pump(18), a sludge tank(19), a rotating pipe(20), a sludge outlet(21), a clarified water outlet(22), a coagulant tank(23), a supply pump(24), a withdrawing conveyer(25), a withdrawing tank(26), a sludge injecting pipe(30), a coagulant injecting pipe(31) and a coagulant supplying hole(32).

Description

Centrifugal separator pouring into a chemical

The present invention mainly relates to the chemical input structure of the centrifuge for industrial or water treatment, the characteristics of the present invention can be more rational to the input of the drug by constituting a double structure for injecting the chemical of the centrifuge that is commonly used Of course, it is possible to maintain the flocs (inner mass) formed in the interior to combine the efficiency of the work and the efficiency of separation at the same time.

Generally, the polymer coagulant put into the centrifuge can be divided into three types: anionic, kitchinic, and nonionic by electrical properties (ionic). Generally, cationic coagulants for organic materials and anionic coagulants for inorganic materials. Is suitable, and large centrifugal force, such as centrifuge, acts as the most important factor that has strong cohesion as well as sedimentation force.

On the other hand, inorganic coagulants are often used for the purpose of promoting blue light and sedimentation, so they are not used alone as coagulants in centrifuges. In some cases, they may be used in combination with organic polymer coagulants (2 liquid injection). .

As a wastewater treatment method, first, the sludge is separated and concentrated in a flocculation sedimentation tank and dewatered in a centrifuge. In this case, a flocculant supplied to the flocculation sedimentation tank is used for the purpose of blue light. The thing with good cohesion force is used.

For the purpose of flocculation sedimentation of the same sludge, both of the latter can not produce sufficient effect with the same flocculant, and a flocculant dissolving device for supplying to the flocculating settling tank and a flocculant dissolving device for feeding to the centrifuge must be separately installed. Has a number of problems:

That is, in the conventional water treatment method, when polymer coagulant is added to remove contaminants in transported sewage, the sludge and flocculant are simultaneously introduced into one pipeline from the outside, or two individual pipes are piped to the inside. Since the supply of and flocculants are separately provided, the structure is very complicated and each of these methods has disadvantages.

When the sludge and flocculant are added at the same time, the floc is broken in the process of moving inside, and the floc is maintained for a long time, and the purpose is to increase the efficiency of centrifugal separation. According to the conditions, it is very difficult to simultaneously accept both purposes as a single centrifuge when the input is appropriate at the same time. Therefore, it is urgently needed to develop a chemical injection structure that can satisfy both of these purposes.

Therefore, the present invention has been made to solve the conventional problems as described above, the purpose is to separate the water and sludge at a time in the centrifuge by supplying the sludge such as sludge injected into the sludge into the sludge input tube of the centrifuge, The characteristic of the present invention is that by using the sludge inlet tube and flocculant inlet tube, it is possible to selectively modify the in vitro medicine injector method and the in-flight medicine injector method, while the water contained in the sludge while separating water and sludge is made to dehydrate at the same time, the line is simple. As well as separate as a single process, complete separation can be done precisely, and in particular, according to the conditions of each centrifugal separation can be combined with the in vitro medicine method and in-flight medicine method was previously unobtainable The effect can be obtained at the same time, the above-described Should take a look at the configuration in conjunction with the accompanying drawings features for achieving less.

1 is an overall layout showing a preferred embodiment of the present invention

2 is an enlarged cross-sectional view of the main part of the present invention;

3 is a cross-sectional view taken along the line A-A of FIG. 2 of the present invention;

* Explanation of symbols used in the main part of the drawing *

10: centrifuge 11: case

12: rotation drum 13: rotation axis

14 screw 15 motor

16: reducer 17: main motor

18: transfer pump 19: Onijo

20: rotating tube 21: sludge discharge outlet

22: clean water outlet 23: flocculation production

24: supply pump 25: discharge conveyor

26: collection tank

30: sludge injection pipe 31: flocculant injection pipe

32: flocculant supply hole

The present invention is a sludge tank 19 is installed in the front, as shown in Figure 1, the sludge tank 19 is connected to the transfer pump 18 to be supplied to the sludge inlet pipe 30 to centrifuge 10 ), But the sludge discharge port 21 and the clean water discharge port (2) to discharge the sludge and water separated therein are respectively discharged at the lower sides of the case (11) of the centrifuge (10), respectively The discharge conveyor 25 and the collecting tank 26 is installed in each of the case 11, the rotating drum 12 is installed inside the case 11 is installed in the rotating shaft 13 formed with a screw 14 therein the main motor ( 17), the reduction gear 16 and the motor 15 are configured to rotate at different speed ratios, respectively, and this configuration is the basic configuration of a general centrifuge 10.

In the configuration of the existing centrifuge 10 as described above, the sludge inlet tube 30 and the flocculant inlet tube 31 are doubled inside the rotating drum 12 installed inside the case 11. The formed coagulation shaft 13 is installed, but the coagulant supply hole in which the coagulant is supplied to the inside of the rotary drum 12 at the end of the coagulant injection tube 31 formed to the outside of the sludge injection tube 30 When the plurality of 32 to be laid in order to supply the flocculant to be able to supply smoothly to the inside of the rotating drum (12).

Of course, in the above configuration, the coagulant input pipe 31 can be formed by dividing the coagulant input pipe 31 so that the coagulant can be selectively dividedly supplied, and the motor 20 and the reducer 16 and the main body can be formed. The rotation of the rotating drum 12 and the screw 14 by the motor 17 can be easily centrifuged by centrifugal force. The principle of the centrifugal separator 10 is general, and a coagulant input pipe is also provided. (31) The number and location of the coagulant supply hole 32 formed at the end is, of course, can be modified by the enemy.

When described in detail with reference to the accompanying drawings a preferred embodiment for achieving the above object of the present invention can be configured as described above.

The present invention is to separate the water and sludge at a time in the centrifuge (10) by supplying a contaminant such as sludge injected into the sludge (19) to the centrifuge (10) sludge input pipe 30, the feature of the present invention is sludge injection Through the tube 30 and the coagulant injection tube 31, it is possible to selectively modify the external medicine method and the in-flight medicine method, while separating water and sludge while the water contained in the sludge is dehydrated at the same time, so the line is simple. In addition, since the separation is performed as a single process, accurate separation can be performed with complete separation, and in particular, it can be combined with the in vitro medicine method and the in-flight medicine method according to the conditions of each centrifugal separation. In order to obtain the effect at the same time, it will be described the operation process and the method of use according to the above configuration of the present invention.

According to the present invention, the manures introduced into the sludge tank 19 or the contaminants contained in the septic tank sludge are supplied to the inner rotary drum 12 of the centrifuge 10 through the sludge input pipe 30, and the flocculant is the sludge input pipe ( By separating through the flocculant injection pipe 31 formed on the outer periphery of 30) bar and separating the water and sludge at a time inside the rotating drum 12 of the centrifuge 10, a feature of the present invention is to separate the water and sludge While the water contained in the sludge is characterized by dehydration at the same time.

When the sludge of the sludge tank 19 is supplied to the sludge input pipe 30 by the operation of the transfer pump 18, the main motor 17 operates to rotate the rotary drum 12 integrally installed with the rotary tubular body 20. The other side of the motor 15 is the rotational force of the decelerating state in the reducer 16 to rotate the rotating shaft 13, the rotational force of such a rotating shaft 13 will rotate the screw 14 at the same time and eventually rotate As the drum 12 and the screw 14 rotate at different speed ratios, the centrifugal force is generated by the centrifugal force generated therein.

In this case, as a means for increasing the efficiency of centrifugation, a flocculant for forming a floc is added. The present invention is to add a flocculant through a flocculant injection tube 31 formed separately on the outer periphery of the sludge injection tube 30. In this process, the coagulant stored in the coagulant preparation 23 is supplied into the coagulant input pipe 31 by the operation of the supply pump 24, as shown in FIG. It is supplied to the inside of the rotary drum 12 through the flocculant supply hole 32 installed in the plurality of ends of the pipe (31).

As described above, when the flocculant is supplied into the rotary drum 12, the flocculant is diluted with the sludge introduced through the sludge inlet tube 30, thereby flocculating the floc of the appropriate size, thereby increasing the centrifugal force during centrifugation. The efficiency of centrifugation is maximized.

The present invention has been described a process of supplying the flocculant to the flocculant input pipe 31 side through a separate pipe as described above, when the flocculant should be added in advance, by directly connecting the flocculant supply pipe with the sludge inlet pipe 30 If the flocculant is supplied in advance, flocs are formed according to the object to be centrifuged, and on the other hand, in the case of a target substance having a high efficiency of flocculation due to being injected in the middle, the flocculant supply pipe is placed in the middle of the coagulant input pipe 31. By connecting to the side will be able to achieve the above effects.

The present invention is also intended to be protected in such a modified embodiment, which is different depending on where the connection of the coagulant supply pipe is different, so this is arbitrarily modified according to the type of sludge to be subjected to centrifugation. Implementation will be possible.

The sludge introduced through the sludge inlet tube 30 of the centrifuge 10 as described above is operated by the centrifuge 10 to separate the sludge and the clean water and discharged to the sludge outlet 21 and the clean water outlet 22, respectively. In this case, the discharged sludge is discharged in a state in which dehydration is completed by the rotational centrifugal force in the centrifuge 10, that is, the rotary drum 12 and the screw 14 inside the centrifuge 10. The rotational speed ratio of the rotating shaft 13 is attached to each other is rotated by the main motor 17 and the motor 15, respectively, so that the separation of sludge including the input impurities inside the centrifuge 10 Dewatering sludge discharged through the sludge discharge port 21 and the clean water discharge port 22 that is discharged to the lower side of the collecting tank 26 through the discharge conveyor 25, the clean water is collected in the aeration tank separately installed and Fair Final discharge through the settling tank and the flocculation tank.

In the present invention, the rotary drum 12 installed inside the case 11 is driven by the operation of the main motor 17, the rotary shaft 13 installed therein is a reducer connected to a separate motor (15). Since the rotation is slightly slowed by (16), centrifugal separation is performed by the rotating drum 12 rotated by the main motor 17, and the sludge and clean water are separated and discharged separately due to the difference in the rotational speed.

At this time, the sludge inlet tube 30 and the flocculant inlet tube 31 are respectively formed in the rotary shaft 13 so as to be supplied to the inside of the rotary shaft 13 so that the manure or septic tank of the sludge tank 19. Sludge is conveyed by the transfer pump 18 and exits the outer end side of the rotary shaft 13 along the sludge inlet tube 30 and is supplied to the inside of the rotary drum 12, and the flocculant is supplied by the coagulation agent inlet tube by the supply pump 24. Along the 31 is supplied to the outside of the rotary shaft 13 is mixed with the sludge.

The sludge mixed in this way is solidified by the cohesive force of the coagulant, and the solid particles are solidified as agglomerates, and the sludge is formed by the rotational difference between the rotating drum 12 and the screw 14. Proceed in the reverse direction according to the rotation of the (14) is discharged through the sludge discharge port 21 is collected in the collection tank 26 along the discharge conveyor 25, the clean water separated sludge proceeds to the clean water outlet 22 The clean water discharged is discharged in the state of purification after being discharged through the aeration tank installed separately, and the clean water is discharged through the sedimentation tank, etc. The effect is achieved.

As described above, the present invention separates water and sludge from the centrifuge 10 at a time by supplying the sludge such as sludge introduced into the sludge 19 to the sludge input pipe 30 of the centrifuge 10. A characteristic of the invention is that through the sludge inlet tube 30 and the flocculant inlet tube 31 to be used by selectively modifying the in vitro medicine injection method and in-flight medicine injection method while separating the water and sludge while the water contained in the sludge is dehydrated at the same time As a result, not only is the line simple but also separated as a single process, so that complete separation can be performed accurately, and in particular, it is possible to use both the in-vehicle and in-flight methods according to the conditions of each centrifugation. It is an invention of which the expected value is very excellent, such as the effect that cannot be obtained at the same time.

Claims (1)

In the configuration of a conventional centrifuge (10), the rotary shaft (13) in which the sludge inlet tube (30) and the coagulant inlet tube (31) are doubled in the rotary drum (12) provided in the case (11). Although installed, at the end of the flocculant injection pipe 31 formed to the outside of the sludge injection pipe 30, a coagulant supply hole 32 which can be supplied to the inside of the rotating drum 12 in a plurality of Chemical injection structure of the centrifuge, characterized in that configured to be able to supply smoothly to the inside of the rotating drum (12) when supplying the flocculant.