KR980008143U - Composite Screen Device - Google Patents

Abstract

The present invention relates to a complex screen device, the screen device for treating wastewater, the wastewater entered into the inlet is configured to be mounted on the vibration screen, the sludge of the wastewater from the upper portion of the vibration screen to the sludge discharge port To form a lake drive with a brush to the brush, and the lower portion of the vibration screen is provided with a washing member that can be sprayed by washing periodically, the vibration is generated by a cam connected to a predetermined portion of the vibration screen The sludge of the waste water is transferred to the sludge discharge port, and the water dropped to the lower side of the vibration screen is moved to the liquid discharge port, so that the fine solids can be processed, the solids can be treated at a high concentration, and the dehydration of the solids at the same time. Can proceed It will have to.

Description

Composite Screen Device

The present invention relates to a complex screen device, in particular, in the screen device for removing water from sewage, sewage, factory wastewater, the cam receiving the driving force to the screen consisting of a plate to combine the vibration screen device and the lake drive sequential impact Vibration is applied to the screen, and the vibrating screen enables the use of a small mesh of particles, and moves the rake on top of the screen to improve the water removal effect. It relates to a composite screen device.

Conventional screens include Sieve Screen, Drum Screen, and Rake Screen. First, a sieve screen was formed with an inclined sieve, and the waste water was allowed to flow from the top of the sieve, and the water was moved from the oh and waste water to the lower side of the net to separate the solids and the water. Therefore, there is no separate driving portion, there is an advantage that less installation cost.

In addition, as a drum screen, the general drum screen apparatus shown in FIG. 1 was used to produce solidified sludge by removing water from waste water and sewage. As a device for removing the moisture, a drum 12 is formed in a drum screen device 11 having a head box 14 into which waste water is introduced, and a screen 13 on an outer surface of the drum 12. The screen 13 is formed by continuously forming a triangular shape, the wide one side of the triangle is formed to face inward, and to discharge the waste water introduced into the head box 14 of the head box 14. The outlet portion 14a is provided at a predetermined portion, and a bearing portion 15 is formed at the lower portion of the drum 12, and a fixing portion 16 for supporting the bearing portion 15 and the drum screen device 11 is provided. ) Was formed.

By the conventional drum screen device 11 as described above, waste water is introduced into the head box 14 from the rear, and the waste water introduced into the head box 14 is transferred to the drum 12 through the outlet portion 14a. The waste water discharged to the drum 12 was discharged through the screen 13 to become sludge 17. The drum 12 is rotated by receiving the driving force of the driving device to be smoothly rotated in a predetermined direction by the lower bearing portion 15 to further remove the moisture from the sludge (17). The sludge 17 from which the moisture has been removed is moved out of the drum 12 to be rotated.

The drum screen device 11 is to rotate the drum 12 by the drive device shown in FIG. FIG. 2 is a rear view of the drum screen device from the rear, and a drum gear part 12a is formed at a predetermined side of the rear side of the drum 12 provided in the drum screen device 11, and the drum gear part ( 12a) is connected to the chain 20, the other side of the chain 20 is connected to the motor gear portion 19a of the motor 19, the drive unit 18 provided with the motor 19 is a drum screen device It was supported by the fixing portion 16 together with (11).

The driving device of the drum screen device as described above is operated as follows. When the motor 19 of the drive unit 18 rotates, the motor gear unit 19a integral to the motor 19 rotates to drive the chain 20 connected to the motor gear unit 19a. When the chain 20 is driven, the drum gear part 12a of the drum 12 is moved to rotate the drum 12.

The drum screen device as described above does not need to be cleaned by an automatic cleaning method, and has a merit that a large capacity can be treated as one.

In addition, the rake screen is mounted in the waterway and the net is installed in an inclined shape, and a rake or rubber bar is mounted on the surface of the net to lift the solids upward. Lake screen as described above had the advantage that it does not need a separate space because the installation on the waterway.

However, the conventional sieve screen has a normal size of the sieve of 1mm, which should be cleaned frequently, and the removal efficiency of the solids was low as 30-40%.

In addition, in the case of a drum screen, a separate driving part was required, and there was a disadvantage in maintaining the driving part, and there was a problem in that the installation cost of the drum was expensive.

In addition, in the case of the rake screen, the lower part of the screen is locked in the waterway, and maintenance is inconvenient. When a fine net is used, the removal efficiency of the solids is reduced, and the dehydration effect is also lowered. There was an expensive issue.

Therefore, the present invention has been conceived in view of such circumstances, and is intended to enable the treatment of fine solids, to allow the treatment of solids at a high concentration, and to proceed with dehydration of the solids at the same time.

In order to achieve the above object, the present invention is a screen device for treating wastewater, and the wastewater that enters the inlet to combine the vibration screen and the lake drive is configured to be mounted on the vibration screen, A lake drive having a brush is formed to move the sludge of the wastewater to the sludge discharge port, and a lower portion of the vibration screen is provided with a washing member for periodically spraying and washing water, and is connected to a predetermined portion of the vibration screen. Vibration is generated by the cam so that the sludge of the waste water is transferred to the sludge discharge port, and the water dropped to the lower side of the vibration screen is moved to the liquid discharge port, so that fine solids can be treated and dehydration of the solids is possible. Is one such line.

1 is a front view showing a typical drum screen.

Figure 2 is a rear view showing a conventional drum screen device.

Figure 3 is a front view showing a screen device of the present invention.

Figure 4 is a side view showing a screen device of the present invention.

* Explanation of symbols for the main parts of the drawings

1: composite screen device 2: inlet

3: Vibration screen 4: Motor

5: cam 6: lake drive

7: washing member 8: sludge discharge outlet

Hereinafter, an embodiment of a sludge conveying apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is a front view showing the screen device of the present invention, and FIG. 4 is a side view showing the screen device of the present invention, and a composite screen device (1) configured to remove moisture and fine solids from waste water or factory waste water residues, etc. Forming an inlet (2), a sludge outlet (8) and a liquid outlet (9), and constitutes a vibration screen (3) for cutting out the waste water introduced by the inlet (2), and a predetermined portion of the vibration screen includes a motor ( And a cam 5 which receives the driving force of 4) by the pulley 4a, and the dustproof member 1a made of elastic material at a predetermined portion of the vibration screen 3, in which the cam 5 rotates and moves up and down. And a lake drive 6 which receives the driving force of the motor 4b on the upper part of the vibration screen 3, and the brushes 6 at predetermined intervals in the chain 6b formed in the lake drive 6 above. With 6a) The washing member 7 having the nozzle 7a is formed under the vibration screen 3 so as to spray water onto the vibration screen 3.

Referring to the composite screen device of the present invention configured as described above in detail as follows.

When wastewater or a plant waste is introduced in the A direction of the inlet 2 in the composite screen device 1 according to the present invention, the wastewater is moved to the vibration screen 3. The waste water moved to the vibration screen 3 is moved by the lake drive 6 receiving the driving force of the motor 4b, and the solids are moved in the D direction toward the sludge discharge port 8, and the liquid or fine particles are moved to the vibration screen. It falls in the B direction which is the lower side of (3). In other words, the vibration screen 3 composed of a network penetrates the water or fine solids from the waste water which is moved to the vibration screen 3 to the lower side and falls in the B direction. In addition, the large particles of solids that do not penetrate downward are moved in the D direction, which is the sludge discharge port 8, by the brush 6a of the lake drive 6 moving in the E direction.

At this time, the device for preventing the case that the network is clogged with a fine solid is caught in the network of the vibration screen (3) of the present invention as a fine size is as follows. When the driving force of the motor 4 is transmitted to the cam 5 by the fleece 4a, the cam 5 moves the vibration screen 3 up and down. At this time, the vibration screen 3 is stably moved by the anti-vibration member (1a) provided in a predetermined portion. Therefore, the vibrating screen of the present invention makes it possible to form a fine solid into a fine net by the vibrating device and the lake drive of the vibrating screen.

This can maximize the treatment efficiency in the post-treatment process of the sludge, as well as reduce the chemical and power costs.

In addition, the present invention is equipped with a washing member (7) to prevent the case of being blocked by a fine solid in the process of separating the sludge and the liquid phase by the vibration of the cam (5) and the action of the lake drive (6). That is, even if the vibration screen (3) is blocked by the fine solids are washed by the washing member (7) which is to operate at a constant cycle. When water is supplied to the washing member 7 at regular intervals, the water is sprayed toward the vibration screen 3 through the nozzle, and when the sprayed water comes into contact with the vibration screen 3, fine solids are vibrated on the vibration screen 3. Deviation from the network of the vibration screen (3) is not blocked. At this time, the solids larger than the size of the net is moved in the D direction by the brush (6a) of the lake drive 6, the solids smaller than the size of the net is moved in the direction B, which is lower than the vibration screen (3) C It moves to the liquid discharge port 9 in the direction. Therefore, it is possible to process a high concentration solids by the composite screen device (1) of the present invention. In addition, the period in which the water of the washing member is supplied varies depending on the particle size of the solid, and as the solid material of the fine particles is supplied, the period in which the water is supplied to the washing member 7 may be faster.

The cam 5 driving device, the lake drive 6 and the washing member 7 can reduce the mesh size of the vibration screen 3 to form a mesh with a size of at least 0.3 mm.

As such, the present invention enables the use of a small sized net, resulting in less post-treatment cost, which is economical, and improves the filtration efficiency. It has the effect of being able to process solids.

Claims (1)

An inlet (2), a sludge outlet (8) and a liquid outlet (9) are formed in the composite screen device (1) configured to remove moisture and fine solids from waste water or factory waste water, and by the inlet (2). And a cam 5 for receiving the driving water of the motor 4 by a pulley 4a at a predetermined portion of the vibration screen. The lake drive 6 receives the driving force of the motor 4b on the upper part of the vibration screen 3 and constitutes an anti-vibration member 1a made of elastic material on the fixed portion of the vibration screen 3 which is rotated and moved up and down. And a brush 6a at predetermined intervals on the chain 6b formed in the lake drive 6, and to the bottom of the vibration screen 3 so as to spray water onto the vibration screen 3; The nozzle 7a Hybrid screen device as claimed hayeoseo configure a washing member (7). ※ Note: This is to be disclosed based on the first application.