KR200440204Y1 - Injector for preventing sludge sticking of sedimentation basin - Google Patents

Abstract

The present invention prevents solidification and solidification of precipitated sludge that is deposited on the bottom of the circular sedimentation system, and at the same time, it smoothly removes sludge deposited in a relatively large area, and prevents sediment by-products such as dirt and debris from sludge from being solidified. The present invention relates to a spray device for preventing sludge sedimentation of sedimentation basin which protects the driving system and can extend the service life of the equipment. The injection device is an underwater pump (40) installed on the upper side of the drive truss (10); An underwater pipe (42) connected to the submersible pump (40) and piped to the lower and side proximal regions of the truss arm (14); At least one or more are installed in the submersible pipe 42 at a predetermined interval to include a spray nozzle 30 to form a downward injection. This prevents solidification and solidification of the settling sludge deposited on the bottom surface of the circular settler by the injection force of the injector, which is sprayed downward by the truss arm rotation, and smoothly removes the sludge deposited in the relatively large area. Economical use can be achieved because the area of sludge removal can be widened while preventing solidification or solidification around this drain and achieving good drainage, and economical use can be achieved by extending the service life of the device by protecting the driving device.

Truss arm, driving truss, sedimentation basin, reservoir, spray nozzle, guide bar, vortex phenomenon

Description

Spray equipment for preventing sludge sedimentation of sedimentation basin

The present invention prevents solidification and solidification of precipitated sludge that is deposited on the bottom of the circular sedimentation system, and at the same time, it smoothly removes sludge deposited in a relatively large area, and prevents sediment by-products such as dirt and debris from sludge from being solidified. The present invention relates to a spray device for preventing sludge sedimentation of sedimentation basin which can protect the driving device and extend the service life of the equipment.

In general, sewage or sewage and waste water are suspended in large and small solids and contain a significant amount. This solid is finally separated into the filtrate and sludge cake by several stages of clarification, concentration, flocculation and dehydration systems.

The sludge collector of the circular sedimentation battery is widely used in sedimentation basins and concentration tanks in water purification plants, sewage treatment plants, wastewater treatment plants, etc. due to its robustness and ease of operation.

Although circular sedimentation has some disadvantages in terms of hydraulics, it is widely used in medium and small sized initial sedimentation, final sedimentation and thickening tanks because the structure of sludge collector is simple, easy to operate, and almost no failure occurs.

It is difficult to remove scum on the water surface when using a circular sedimentation battery.Scum baffles are mainly installed to prevent scum from leaking out of the sedimentation basin, and the scum is gradually rotated while the scum is rotated using a long pole-shaped scum removal device that rotates on the water surface. It is mainly used to push it into the scum collection box installed at one part of the circumference part.

In this case, the scum floating on the surface of the water should be transported rapidly outward in the radial direction, but in most cases it moves mainly in the circumferential direction, and only a little in the radial direction. Scum is generated and a large amount of scum is always floating on the surface of the sedimentation basin, which is visually unpleasant and adversely affects the treated water quality. In the final settling process of biologically removing phosphorus, it is a very big problem for the dissolution of phosphorus.

In addition, the rotary shaft extending from the drive shaft for rotating the impeller has a separate follower, i.e., a rotating part, formed with a bearing in the lower part thereof. The distance between the rotary part and the impeller that promotes the vortex is the characteristic of the facility (usually 4 ~ 5m) is too far away and sludge continues to settle, and in particular, dirt (solids) etc. settle in the bearing and solidify and solidify at the same time, thereby preventing the smooth rotation and causing damage to the device including the rotating shaft and the driving motor. It is becoming.

On the other hand, the drive device for driving the impeller at the same time as the load is applied to the impeller rotating continuously and stably due to the sludge solidified or solidified by sedimentation as described above does not occur smoothly drained by a large amount of solidified sediment in the drain and There is also a problem that the load occurs in the motor, the abnormal phenomenon occurs, especially the expensive drive motor is damaged.

In addition, during the repair and inspection due to the damage of the drive motor, the impeller and the drive device of the impeller are disassembled and removed for cleaning and solidification and solidified sediment sludge for smooth driving environment. There is a problem of delayed or paused, resulting in uneconomical use.

The present invention is devised to solve such a conventional problem, by installing a spray device at the bottom of the rotating truss arm and the driving truss to prevent the settling sludge solidified and solidified on the bottom of the circular settler, and a relatively large area area Of sedimentation basin that can smoothly remove sludge precipitated in the sediment and prevent sedimentation by-products such as contamination and debris from sludge, and protect the driving device in the sedimentation basin to extend working life and improve working environment by smooth action. The present invention provides an injection device for preventing sludge sticking.

In the present invention for achieving the above object, in the lower end of the drive truss placed in the center, the bottom scraper is rotatably installed in the truss arm is installed on the lower surface, the ordinary circular tank is formed on the water surface of the drive truss A sedimentation basin comprising: an underwater pump installed on an upper side of the drive truss, and an underwater pipe connected to the underwater pump and piped to a lower portion and a proximal region of the truss arm; At least one or more are installed in the water pipe at a predetermined interval to provide a spray device for preventing sludge sticking of the sedimentation basin comprising a spray nozzle forming a downward injection.

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According to the present invention, by preventing the solidification and solidification of the sedimentation sludge deposited on the bottom surface of the circular sedimentation by the injection force of the injection device forming the downward injection by the rotation of the truss arm, the sludge deposited in the relatively large area area is smoothly removed The sediment floatation products such as dirt and debris generated from the sludge prevent sedimentation around the drain hole so that the sludge removal area can be widened while achieving smooth and good drainage without stacking or clogging the circular sediment wall or the adjacent area of the driving truss and the sludge discharge port. Economical use can be achieved, and the driving device is protected to extend the service life of the device, thereby achieving economical use.

Hereinafter, with reference to the accompanying drawings will be described in more detail the injection device for preventing sludge sticking of the sedimentation basin of the present invention.

1 is a sectional view showing a circular needle setter in which the injector according to the present invention is installed, and FIG. 2 is a plan view showing a circular needle setter in which the injector according to the present invention is installed, and FIG. 4 shows a schematic front view of the main portion "A" of FIG. 1 according to the present invention.

1 to 4, the present invention, the truss arm 14 formed on the lower surface of the bottom scraper 12 is installed at the lower end of the drive truss 10 installed in the center, the rotation of the truss 10 Central storage tank 16 is formed on the surface of the water to form a conventional circular settler 100.

And the submersible pump 40 is installed on the upper side of the drive truss 10 to provide a supply water for injection.

The submersible pipe 42 is connected to the submersible pump 40, and the submersible pipe 42 is piped to the lower and adjacent regions of the truss arm 14.

In addition, at least one of the submersible pipes 42 disposed in the lower and proximal regions of the truss arms 14 is provided with a spray nozzle 30 at a predetermined interval to achieve downward spraying.

On the other hand, the downward injection range of the injection nozzle 30 is in the range of 1/3 to 1/4 of the diameter center area of the truss arm 14 is disposed in the injection force and the center peripheral area of the truss arm 14 Precipitated sludge is concentrated in the drain, so it is preferable to prevent coagulation or fixation.

In addition, the upper surface of the truss arm (14) is a vortex guide support bar 20 is installed diagonally and arranged at least one at equal intervals, the vortex guide support bar (20) is a relatively thin long rod form or narrow and long one-sided form In order to increase the efficiency of the vortex, it is preferable that the adhesive part be constructed upright.

On the other hand, the truss arm 14 is made of any one of a flat plate or a deformation form corresponding to the bottom surface of the circular sedimentation tank 100, the upper surface is composed of one or more oblique vortex guide support bar 20 is attached.

In the drawings, reference numeral 50 denotes a waway, 52 a driving device adjacent to the waway, and 54 a sludge discharge port.

According to the present invention having the configuration described above, when the driving device 52 adjacent to the wakeway 50 is driven after raw water flows into the sedimentation basin and the sedimentation water vortex, the truss arm 10 and the truss arm fixed integrally therewith 14 will rotate.

In addition, the sludge collected on the bottom surface by the bottom scraper 12 which is installed at the bottom of the truss arm 14 and integrally rotates is scraped and the sludge deposited on the bottom of the sedimentation basin is collected at the center of the sedimentation basin and then the sludge discharge port 52 is collected. Through the discharge to the outside.

When the truss arm 14 rotates, a separate submersible pump 40 is operated according to the command of the central processing unit, which is an electronic connection method (not shown), and then supply water is supplied to the submersible pipe 42.

Therefore, the supply water through the submerged pipe 42 is sprayed by the injection nozzle 30 of the submerged pipe 42 arranged in the lower and side proximal regions of the truss arm 14, so that It prevents solidification while preventing solidification of the precipitated sludge to be stacked, so that the sediment sludge is smoothly removed at all times to prevent the sediment flotation from sticking.

Therefore, the sedimentation sludge in the sedimentation basin is drained by a certain amount so that the driving device operates smoothly without failure and abnormality due to the load, thereby maintaining a normal operating state.

In addition, by the vortex guide support bar 20 formed on the upper surface of the truss arm 14, the scum (float residue, oil, etc.) on the surface of the wave is waved with the wave and flows by vortex action without stagnation, so that it is good and stable. Can be discharged.

In addition, another scum or sludge flowing into the bottom surface of the stagnation or circular sedimentation battery 100 around the sludge discharge port 54 is injected to the right angle and downward of the driving truss 10 and the truss of the injection nozzle 30 When the arm 14 is rotated, the vortex action formed by the vortex guide support bar 20 does not stick to the vortex, so that it is discharged through the sludge outlet 54 without being solidified or solidified.

Therefore, the wave motion caused by the vortex stimulation of the vortex guide support bar 20 by the rotation of the truss arm 14 and the settling sludge etc. are injected around the driving truss 10 or the sludge outlet 54 by the injection force of the injection nozzle 30. Because the discharge action is smoothed because it is not solidified or solidified, the bottom surface or peripheral device of the circular sedimentation battery 100 is always kept free of solidified or fixed sedimentation sludge, which causes damage to the rotating device due to load or corrosion. Will be prevented.

Here, in order to promote the vortex phenomena of the vortex guide support bar 20, the sludge in the underwater state is rotated so as to prevent excessive overload of the drive truss 10 including the drive motor. It is preferable to be inclined to form an oblique line (an inclined angle, for example, 10 to 45 degrees), rather than being combined with each other.

At this time, the vortex guide support bar 20 is preferably in the form of a long rod or thin and short plate-like, in particular, the number arranged at equal intervals is preferably formed within 5 to 50.

This is to cope with the catchment area of the sedimentation basin and to induce the corresponding manufacturing standard values.

The present invention described above is not limited to the above-described embodiments and drawings, and various substitutions, modifications, and changes within the scope not departing from the technical spirit of the present invention are not limited to those of ordinary skill in the art. It will be clear to those who have it.

1 is a cross-sectional view of the main portion of a circular needle battery equipped with an injection device according to the present invention,

2 is a plan view of a circular needle battery is installed, the injection device according to the present invention,

3 is a perspective view of main parts of the injector according to the present invention,
FIG. 4 is a schematic front view of the main part in part “A” of FIG. 1 according to the present invention; FIG.

Explanation of symbols on main parts of drawing

10; Drive truss 12; scraper

14; Truss arm 16; Central storage tank

20; Vortex guide support bar 30; Spray nozzle

40; Submersible pump 42; A water pipe

Claims (2)

The truss arm 14 formed on the lower surface of the bottom scraper 12 is installed at the lower end of the driving truss 10 installed in the center, and the central storage tank 16 is formed on the water surface of the driving truss 10. In the conventional circular needle battery 100, The submersible pump 40 installed on the upper side of the drive truss 10, the pipe connected to the submersible pump 40, disposed in the lower and side adjacent areas of the truss arm 14 at least one or more at regular intervals Injector for preventing sludge sticking of the sedimentation basin characterized in that it comprises an underwater pipe (42) having a spray nozzle (30) installed to achieve downward injection. delete

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