KR200428314Y1 - Screw Conveyor for Sludge Feed of Underwater - Google Patents

Abstract

The present invention relates to a screw conveyor for underwater sludge transfer for easily transporting sludge deposited in water in a water purification facility of a water and sewage facility or a sedimentation basin of a wastewater treatment plant, and is installed in a trough having an upper side opened and rotated in the trough. In a screw conveyor consisting of a feed screw blade, the screw conveyor rotates in the trough and the trough as a feed amount increase response means for gradually increasing the feed amount corresponding to the sludge feed amount that increases toward the outlet side, which is the direction in which the sludge is conveyed. The outer diameter of the feed screw blade is gradually increased in diameter toward the outlet side, which is the direction in which the sludge is conveyed, or the pitch of the feed screw blade is formed to increase gradually toward the outlet side.

Sedimentation basin, sludge, screw conveyor, trough, feed screw wing, outlet

Description

Screw Conveyor for Sludge Feed of Underwater}

1 is a plan view of a sedimentation basin to which an embodiment of the present invention is applied.

2 is a cross-sectional view taken along the line AA of FIG.

Figure 3 is a side cross-sectional view of the conveying device of the present invention,

a) is a gradual expansion of the outer diameter specification of the feed screw;

b) is a gradual enlargement of the pitch of the feed screw blade.

4 is a cross-sectional view taken along the line BB of FIG. 3B.

5 is a cross-sectional view showing the configuration of a conventional screw conveyor.

Explanation of symbols on the main parts of the drawings

100: screw conveyor

110 trough 111 outlet

120: feed screw blade 121: pitch

130: power unit 140: shaft

151: head bearing 152: tail bearing

200: sedimentation basin 210: longitudinal sludge collector

The present invention is a device for the treatment of sludge deposited in water, and more particularly relates to a screw conveyor for underwater sludge transfer for the easy transport of sludge deposited in water in the sewage basin, such as water purification facilities or sewage treatment plants of sewage treatment plants. .

In general, in order to purify rainwater and various wastewater, the wastewater is collected in a water purification plant, and various foreign matters contained in the wastewater are purified using a water purification facility.

The wastewater collected in the water purification plant is purified through various stages of the water purification plant. In the water purification process to purify the wastewater, the step of removing the foreign matter mixed with the wastewater, that is, sludge, is carried out in the sedimentation basin.

The sedimentation basin of the water purification plant or sewage treatment plant is formed with a relatively large area, and the sedimentation sludge collector for collecting the sludge deposited in such sedimentation basin is used for submersible cart type or chain scraper type.

However, if the sludge outflow is made by separate hoppers and draw valves, the sludge outflow hopper or draw valve is located at one side of the settling basin and the sludge should be transported back to this position.

That is, in order to completely collect and remove sludge distributed in the sedimentation basin having a large area, it must be possible to collect in the longitudinal direction and the transverse direction of the sedimentation basin. Therefore, the sludge conveyed in the longitudinal direction by the sludge collector is again in the transverse direction. There is a need for an apparatus for collecting and transporting the water.

At this time, as a device for transporting the sludge collected in the lateral direction in the prior art was used by applying a general screw conveyor in the water, but there were various problems in operation due to the occurrence and transport characteristics of the underwater sludge.

In the conventional general screw conveyor 10, as shown in FIG. 5, an inlet 11 and an outlet 12 are defined on one side of a trough 15, and a power unit 14 is provided. The size or pitch of the thread 13 rotating by the same is constant, and in this conventional screw conveyor, the outlet amount of the outlet 12 is determined according to the amount introduced through the inlet 11.

However, there was a problem that is not suitable to apply such a screw conveyor to treat underwater sludge such as sedimentation basin.

In other words, in the case of sedimentation sludge, the outlet is defined on one side, but the inlet is not one end of the screw conveyor but the front end of the screw conveyor is the inlet. The amount of feed will change, and the closer to the outlet, the higher the risk of consolidation.

Therefore, a new conveying device that takes into account the characteristics of underwater sludge is required.

In order to improve the above problems, the present invention provides an underwater sludge conveying screw conveyor having a conveying amount increasing means to smoothly transport the sludge in response to the amount of sludge that is changed between the inlet and the outlet during the operation of the screw conveyor. The purpose is.

In order to achieve the above object, the present invention is installed in the water of the sedimentation basin of the rectangular water supply and sewage facility, and the trough and the trough in which the upper part is opened to collect and transport the sludge collected by the longitudinal sludge collector in the transverse direction again. In the screw conveyor consisting of a rotating screw blade installed and a power unit for rotating the feed screw blade, the screw conveyor gradually increases the feed amount in response to the sludge feed amount increases toward the outlet side in the direction in which the sludge is conveyed It characterized in that it is provided with a feed rate increase corresponding means to.

In the present invention, the conveyance increase response means to gradually increase the diameter of the trough of the screw conveyor toward the outlet side, the direction in which the sludge is conveyed, the outer diameter of the feed screw blade rotated in the trough to the inner diameter of the trough Correspondingly configured to grow larger.

In addition, in the present invention, the conveying amount increase response means is characterized in that the pitch of the feed screw blade is formed to gradually increase so as to feed more quickly in response to the sludge amount gradually increased toward the outlet side.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a plan view of a sedimentation basin to which an embodiment of the present invention is applied, and FIG. 2 is a cross-sectional view taken along line A-A of FIG. Rotates the trough 110 and the feed screw blade 120 and the feed screw blade 120 which are installed in the trough 110 and rotated so as to collect and transport the sludge collected by the lateral direction again. It shows a screw conveyor 100 consisting of a power unit 130 to.

The power unit 130 is composed of a conventional drive motor and a chain, a sprocket for transmitting power.

The trough 110 of the screw conveyor 100 is to be installed on one side of the bottom surface of the sedimentation basin 200, the upper side of the trough 110 is an overall open structure.

Therefore, unlike the general screw conveyor in the present invention by allowing the sludge to flow in the entire upper surface of the screw conveyor 100 is not provided with a separate inlet, only one outlet 111 is provided separately on one side.

The screw conveyor 100 of the present invention is provided with a feed amount increasing response means for gradually increasing the feed amount in response to the sludge amount increasing toward the outlet port 111, the direction in which the sludge is conveyed.

Figure 3 is a side cross-sectional view of the transfer device of the present invention, Figure 4 is a cross-sectional view of the line B-B of Figure 3 shows the structure of the screw conveyor 100 of the present invention in more detail.

The feed screw 120 formed on the outer circumferential surface of the shaft 140 driven by the power unit 130 and the head bearing 151 and the tail bearing 152 and the upper portion which support the shaft 140 at both ends are opened. It is composed of the trough 110, the U-shaped feed screw blades installed in the trough 110 rotates along the wing surface due to the sludge and the propulsion force by the feed screw blades 120 is rotated. Will be.

By the way, the sludge collected to one side by the longitudinal sludge collector 210 from a large area of the sedimentation basin 200 formed in a rectangular shape is widely supplied to the upper side of the screw conveyor 100 of the present invention.

That is, the sludge is introduced through the entire section of the trough (110) of the upper portion of the screw conveyor 100 of the present invention, the feed screw blades 120 of the screw conveyor 100 is rotated, the outlet port As the sludge conveyed to the (111) side and the sludge supplied immediately from the upper side of the screw conveyor 100 is combined, the sludge amount gradually increases toward the outlet 100 side.

3A shows an embodiment of the present invention, in which the trough 110 of the screw conveyor 100 gradually increases in diameter toward an outlet 111 in a direction in which sludge is conveyed, and rotates in the trough 110. The outer diameter of the feed screw blade 120 is also configured to increase in size corresponding to the inner diameter of the trough 110.

Therefore, the conveying operation is made smoothly by increasing the conveying amount corresponding to the sludge amount gradually increased toward the outlet 111 side.

In addition, Figure 3b is another embodiment of the present invention is the feed screw blade 120 is configured to gradually increase the pitch 121 in response to the sludge amount gradually increased toward the outlet 111 side.

Therefore, the feed rate is increased to correspond to the sludge amount gradually increased toward the outlet 111 to increase the feed amount per unit time to smoothly perform the transfer operation.

The inventive screw conveyor 100 configured as described above is installed in one side of the sedimentation basin 200 and smoothly conveys the sludge collected at one side of the sedimentation basin 200 by the longitudinal sludge collector 210 to discharge the outlet 111. To be discharged to the side.

Therefore, the present invention is to be installed in the water of a special situation, such as sedimentation basin so that the amount of sludge which is increased as the conveying amount increases toward the outlet side easily to be transported.

As described above, the present invention is designed to increase the transport amount in response to the gradually increasing inflow of the sludge along the transport direction, so that it is very suitable for the transport characteristics of the sludge generated and deposited in the water of the sedimentation basin. There is an effect that can respond very efficiently to.

Claims (3)

The trough 110 and the trough 110 which are installed in the water of the sedimentation basin 200 of the rectangular water supply and sewage facility, the upper side of which is opened so that the sludge collected by the longitudinal sludge collector 210 is collected again laterally and transported. In the screw conveyor (100) consisting of a feed screw blade (120) installed and rotated in the inner) and a power unit (130) for rotating the feed screw blade (120), The screw conveyor 100 is a screw conveyor for underwater sludge conveying, characterized in that it comprises a feed amount increasing means for gradually increasing the feed amount in response to the sludge feed amount to increase toward the outlet 111 in the direction in which the sludge is conveyed . The method of claim 1, The transfer amount increase response means The trough 110 of the screw conveyor 100 gradually increases in diameter toward the outlet 111 in the direction in which the sludge is conveyed, and the outer diameter of the feed screw blade 120 rotated in the trough 110. Underwater sludge conveying screw conveyor, characterized in that configured to gradually increase in correspondence with the inner diameter of the trough (110). The method according to claim 1 or 2, The transfer amount increase response means Underwater sludge conveying screw conveyor characterized in that the pitch 121 of the feed screw wing 120 is formed to be gradually increased to feed more quickly in response to the sludge amount gradually increased toward the outlet 111 side.

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