KR20110043142A - Apparatus for processing adulteration - Google Patents

Abstract

PURPOSE: An adulteration processing apparatus is provided to process adulteration including sludge by being installed on the end of a purification treating process. CONSTITUTION: An adulteration processing apparatus includes a main body frame(100), a process tank(200), a drum-shaped filter element(300), a helix scraper, a drive motor, a dehydrating liquid discharging hole(210), a dehydrated product discharging hole(220), and an airtight cover(240). The process tank is installed on the main body frame. The drum-shaped filter element is rotatably installed on the process tank. The helix scraper is installed in the inside of the drum-shaped filter element.

Description

Anti-foaming Device {APPARATUS FOR PROCESSING ADULTERATION}

The present invention relates to a contaminant treatment apparatus, and more particularly, is installed at the end of the purification process of the contaminants, such as sludge, can be processed without clogging during the final treatment of the contaminants, and improved contaminants to further increase the processing capacity compared to the same model It relates to a processing apparatus.

In general, sewage discharged from a flush toilet, bath, kitchen, etc., manure or sludge collected from a toilet, or manure or livestock wastewater of livestock are primarily treated in sewage treatment facilities or septic tanks installed in each household or industry. It is treated in sewage treatment plant, wastewater treatment plant or wastewater treatment plant.

By the way, since the treated objects such as sewage, manure, sludge, etc., a large amount of water and solids are mixed, the purification process cannot be performed properly without separating and removing the solids (sludge).

In addition, since it contains a large number of foreign matter, in a broad sense it is called 'miscrete (挾 雜物, adulteration).'

Therefore, the purification process includes a step of separating water and sludge, that is, contaminants through dehydration.

Such a dehydration method includes a belt press method or a screw press method for separating water by directly pressing sludge by a filter cloth or a screw passing through a roller.

However, in this case, since the apparatus is complicated and large in size, manufacturing costs are high, dehydration takes a lot of time, and there is a problem that a lot of moisture remains in the cake discharged due to low dehydration efficiency.

Therefore, the present inventor has disclosed a centrifugal force type dehydration apparatus for separating water by using centrifugal force acting on the rotating filter cylinder (Registration No. 443050).

However, since the centrifugal force type dewatering device has a limited throughput, the efficiency of the dehydration device is lowered. Thus, the present applicant has further disclosed a number of improved technologies since the disclosed technology.

For example, Patent No. 566423, which is illustrated in FIG. 1, injects a contaminant (sludge) into the hollow rotating shaft 3 through a discharge hole 3a in the collection cover 5. It is to be discharged to the inside of the rotating filter cylinder (2), and dehydrated or concentrated through the filter cylinder (2) while conveying the contaminants discharged to the rotating scraper (4) inside the filter cylinder (2). Based on the scraper (4) to improve the dehydration efficiency while reducing friction noise during dehydration to improve the portion.

However, the starting technique is limited to the amount that can be processed in a short time because the input means for inputting the contaminant is not only possible through the hollow of the hollow rotating shaft 3 but also the discharge means for discharging is limited to one discharge hole 3a. And, there is a disadvantage in that the processing capacity is small.

In addition, due to various foreign matters (bars, etc.) contained in the contaminant, the hollow of the hollow rotating shaft (3), as well as the discharge hole (3a) is easily blocked, so that the treatment efficiency drops sharply, and the operation of the device is stopped for repair. There is also a downside in productivity.

Furthermore, there is also a problem of poor processing, in which the contaminants remaining in the space between the end of the contaminant inlet-side filter cylinder 2 and the discharge hole 3a are not easily scraped and remain at the same point for a long time.

This problem also applies to concentrators of condensate (sludge) that are nearly identical / similar in structure.

The present invention was created in view of the above-mentioned problems in the prior art as described above, and removes the problem of clogging caused by foreign substances when treating for purification, such as dehydration or concentration of contaminants to increase the treatment efficiency, The main challenge is to provide a uniform and accurate treatment from the beginning to the end without processing defects, and to provide an improved contaminant treatment device to maximize the processing capacity compared to the same capacity.

The present invention is a means for achieving the above object, a main body frame, a treatment tank installed in the main body frame, a drum filter body rotatably installed in the treatment tank, and rotatably inside the drum filter body. A helical scraper installed in the main body frame, a driving motor for rotating the drum-type filter member and the helical scraper through a power transmission means, a dehydration liquid outlet and a dehydration outlet formed in the main body frame and connected to the treatment tank; In the contaminant processing device comprising a closed cover hinged to the processing tank; A contaminant storage space partitioned along the shape of the drum-shaped filter medium at one end in the longitudinal direction of the treatment tank; It is installed in the lower portion of the treatment tank, and has a contaminant supply port in communication with the contaminant storage space, both ends of the drum-type filter body is open except for the fixed bar for installing the structure for rotation, the rotation of the contaminant storage space Provided is a contaminant processing apparatus, characterized in that the stored contaminants overflow to flow through the open end of the drum-like filter medium.

At this time, the drum-type filter member and the spiral scraper is also characterized in that it is installed to rotate in the same direction or in the opposite direction.

In addition, the helical scraper is characterized in that it is installed immediately without being spaced apart from the end of the contaminant storage space of the drum-like filter medium so that no residue is generated during scraping.

In addition, the inner surface of the airtight cover is characterized in that the first and second sealing jaw is further formed to engage with the corresponding portion of the treatment tank to perform the sealing function.

According to the present invention, by adopting the overflow type injection method, not through the hollow of the rotary shaft to eliminate clogging caused by foreign substances, to maximize the treatment capacity compared to the same capacity as well as continuous treatment from the beginning to the end of the treatment tank It is possible to obtain the effect of eliminating the processing defects because there is no impurities left untreated.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment according to the present invention.

2 to 4 are exemplary sample pictures of the contaminant processing device according to the present invention, and FIGS. 5 and 6 are exemplary sample pictures showing the main parts of the contaminant processing device according to the present invention, and FIGS. Exemplary sample photograph showing a drum-shaped filter medium of a contaminant treatment device according to the invention.

As shown in Figure 2 to 4, the contaminant processing apparatus according to the present invention produced a prototype in the form shown, the configuration is as follows.

First, the contaminant processing apparatus according to the present invention includes a main frame 100.

The main body frame 100 has a main function of fixing the present invention processing apparatus to the installation surface, and fixing a plurality of embedded components.

In addition, a first box cover 110 is provided at an upper side of the main body frame 100, and second and third box covers 120 and 130 are provided on the other side with a step.

In addition, the driving motor 140 is installed on an adjacent side of the third box cover 130.

Thus, the rotational force generated by the drive motor 140 can be transmitted to the required position by the power transmission means installed in the first, second, third box cover (110, 120, 130), for example, gears, chains, belts. It is configured to be.

In addition, a treatment tank 200 is mounted at the center of the main body frame 100, and a dehydration liquid outlet 210 connected to the treatment tank 200 and discharged from the treated dehydration liquid is disposed below the treatment tank 200. ) Is formed, and a dehydration discharge port 220 is formed at the rear end of the treatment tank 200.

In addition, a contaminant supply port 230 is formed at a lower portion of the treatment tank 200 facing the dehydration outlet 220.

In addition, the drum-type filter member 300 is rotatably mounted in the treatment tank 200.

In addition, the upper portion of the treatment tank 200 is fixed to the cover so that the sealing cover 240 can be rotated.

Therefore, the contaminants introduced into the contaminant supply port 230 are dehydrated while passing through the drum-type filter medium 300, and the dehydrated dehydration liquid is collected through the dehydration outlet 210, and the dehydrated dehydration outlet is dehydrated. Will be collected via 220.

At this time, the drum-type filter member 300 is arranged with a predetermined interval to support the filter mesh 310 and the filter mesh 310, made of a mesh of the mesh type, as shown in Figures 5 to 6 It comprises a plurality of support flanges 320, the fixing rod 330 for fixing the filter net 310 by binding the support flanges 320.

In this case, as shown in the support flange 320, the center is formed in a ring shape, but the fixed bar 350 is further formed at intervals of 90 ° to support only the filter body rotating shaft 340 provided at both ends. They are fixed to the circular block 360 is coupled to the filter shaft rotating shaft 340.

In addition, the circular block 360 and the filter body rotating shaft 340 are bolted in a state in which the flange-shaped members formed in a size corresponding to the circular block 360 on the outer circumferential surface of the filter body rotating shaft 340 abut each other It is configured to transmit rotational power.

In addition, the filter body rotating shaft 340 has a hollow shape and is installed in a form in which a bearing is fixed to an upper surface of one side end of the treatment tank 200 described above, and is rotatable under the power of the driving motor 140. It is provided.

Here, the power transmission means of the drive motor 140, the chain is typical, and other various modifications such as belts and gears, and also the acceleration and deceleration is possible by adjusting the sprocket or pulley size ratio, gear ratio and the like. .

On the other hand, as shown in Figure 5, inside the processing tank 200 in which the drive motor 140 is installed, the confinement storage space 260 partitioned from the drum-type filter body 300 by the partition wall 250 is formed. And, the drum-type filter member 300 is rotated in a state of being locked more than half in the treatment tank 200, so the contaminants stored on the contaminant storage space 260 is the drum-type filter member 300 to rotate When overflowed to the open portion of the support flange 320 is configured to be drawn.

In addition, the contaminant supplied to the contaminant storage space 260 may have a structure that is directly supplied through the upper portion, but in the present invention, the contaminant supply port to eliminate interference with the sealed cover 240 as illustrated in FIG. 2. It is preferable to adopt a method of supplying pressure in a form rising from the bottom to the top through the 230.

In this case, as the contaminants in the contaminant storage space 260 are scattered in the process of being transported, they may leak to the outside through the sealing cover 240 to minimize the first and second sealings on the inner circumferential surface of the sealing cover 240. The jaws 242 and 244 are formed in accordance with the shape of the corresponding position to be engaged to seal.

Meanwhile, as shown in FIG. 3, a power transmission shaft (not shown) is provided between the first box cover 110 and the third box cover 130, and the power transmission shaft is sealed by the shaft protection cover 150. The power of the driving motor 140 is transmitted to the scraper rotation shaft 370.

At this time, the scraper rotation shaft 370 is fixed to the other end of the treatment tank 200, one end is fixed to the other end of the processing tank 200, as shown in Figures 3 and 7,8 through the circular block 360 Bearings are rotatably mounted in the inner hollow of 340.

Therefore, the power generated by the drive motor 140 is configured to rotate the filter body rotating shaft 340 as well as the scraper rotating shaft 370 at the same time, the filter body (Rotating drive of the filter rotating shaft 340) ( 310 is rotated, and the scraper 376 to be described later is rotated by rotating the scraper rotating shaft 370.

In this case, the filter mesh 310 and the scraper 376 may be rotated in the same direction or may be rotated in opposite directions depending on a suitable gear combination or belt or chain installation method.

As shown in FIG. 7, a plurality of connection bars 372 are integrally fixed to the outer circumferential surface of the scraper rotation shaft 370 at a predetermined interval, and the connection bar 372 is also in the longitudinal direction of the scraper rotation shaft 370. Also, a large number is formed at regular intervals.

In addition, a straight binding beam 374 is fixed integrally to the end of the connecting bar 372 to connect and fix the connecting bars 372 protruding in the longitudinal direction of the scraper rotation shaft 370 to each other. Many arc-shaped scrapers 376 are fixed to the beam 374.

Here, the scraper 376 is disposed to form a spiral as a whole, the outer surface is disposed at a minute interval from the inner circumferential surface of the filter net 310 to increase the dewatering efficiency with scraping.

In particular, the scraper 376 is more preferably formed immediately from the position adjacent to the contaminant storage space 260 so as to prevent the generation of impurities that are not processed and remain as before.

The present invention having such a configuration has the following operational relationship.

First, the processing target contaminants (regardless of concentration, dehydration, etc.) are supplied into the contaminant storage space 260 formed at one end of the treatment tank 200 through the contaminant supply port 230.

At this time, since the driving motor 140 is being driven, the filter net body 310 and the scraper 376 are naturally rotating.

In this way, when the contaminants are stored in the contaminant storage space 260 for a predetermined time or more, the contaminants are introduced into the filter net 310 through the open space of the support flange 320 for supporting the filter net 310.

At the same time, since the filter net 310 is being rotated, the introduced contaminants are rotated along the filter net 310 and dehydration is performed by gravity and centrifugal force.

In addition, at the same time, the scraper 376 is also rotated inside the filter net 310, so that the dirt accumulated on the inner circumferential surface of the filter net 310 is scraped spirally by the scraper 376 and is opposite to the dirt storage space 260. The dehydration work continues during the transfer.

In particular, the scraping operation through the scraper 376 further increases the dewatering efficiency.

In addition, the contaminants are configured to flow into the filter network 310 through an overflow form unlike the conventional one, and since the inlet is completely open, the inflow of foreign substances is suppressed as well as the inlet is blocked even if the foreign substances are mixed. It doesn't happen.

In this way, the dehydrated dehydration is dropped out of the filter net 310 and then collected through the dehydration outlet 210, the dehydrated dehydration is moved while being scraped and collected by dropping through the dehydration outlet 220. .

As described above, the apparatus for treating a contaminant according to the present invention enables smooth supply without clogging a contaminant supply port, and since scraping operation is performed from the start of the supply of the contaminant, the remaining contaminant does not occur, and a double rotation structure of the filter net and the scraper is provided. By having it can further maximize the dehydration efficiency.

1 is an exemplary view of a contaminant treatment device according to the prior art,

2 to 4 is an exemplary sample photo of the contaminant treatment apparatus according to the present invention,

5 and 6 are exemplary sample pictures showing the main part of the contaminant treatment apparatus according to the present invention,

7 and 8 are exemplary sample photographs showing a drum-type filter medium of the contaminant treatment device according to the present invention.

♧ description of the symbols for the main parts of the drawing ♧

100 .... body frame 200 ... processing tank

300 .... Drum Filter

Claims (4)

A main body frame, a treatment tank installed in the main body frame, a drum-type filter body rotatably installed in the treatment tank, a spiral scraper rotatably installed in the drum-type filter body, and a power transmission means installed in the body frame. A drive motor for rotating the drum-type filter member and the helical scraper through, a debris discharge port and a dehydration discharge port formed in the main body frame and connected to the treatment tank, and a closed cover hinged to the treatment tank To; A contaminant storage space partitioned along the shape of the drum-shaped filter medium at one end in the longitudinal direction of the treatment tank; It is installed in the lower portion of the treatment tank, and has a contaminant supply port in communication with the contaminant storage space, Both ends of the drum-type filter medium are all open except for the fixed bar for installing the structure for rotation, and configured to flow through the open end of the drum-type filter medium by overflowing the contaminants stored in the contaminant storage space during rotation. A miscellaneous matter processing device, characterized in that. The method according to claim 1; And said drum-type filter member and said spiral scraper are installed to rotate in the same direction or in opposite directions. The method according to claim 1; The helical scraper is disposed so as not to be left spaced apart from the end of the contaminant storage space of the drum-type filter medium, so that no residue is generated when scraping. The method according to claim 1; The first and the second sealing jaw is formed on the inner surface of the airtight cover to engage with the corresponding portion of the treatment tank to perform the sealing function.

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