KR200225775Y1 - the intake tower has law of soil and sand or algar - Google Patents

Abstract

This study relates to a water intake tower for supplying raw water from a water supply to a water channel, and more particularly, to a structure of a water intake tower that minimizes the inflow of soil and algae mixed into the water during intake by improving the structure of the intake port that draws raw water from the intake tower. .

Since the intake port of the conventional intake tower is a structure in which the upper portion is opened to a single partition wall so that only water in the upper layer of the water layer flows in when water is introduced, the present invention forms a weir structure to form a passage of the double partition wall in the structure of the intake port The opening of the intake port is changed from the upper layer to the lower layer to lower the water intake depth of the water layer to block the inflow of algae, and the soil inflow from the low intake water is allowed to settle through the passage of the double partition wall so that the inflow of the soil can be suppressed.

Description

Intake tower has law of soil and sand or algar

The present invention relates to a water intake tower for supplying raw water from tap water, and more particularly, to a structure of a water intake tower that minimizes the inflow of soil and algae mixed into the raw water during intake by improving the structure of the intake port that draws raw water from the intake tower. .

In general, the water intake tower is installed in a river, dam, or reservoir to supply raw water of industrial water and water supply to the waterway, and the intake port of the water intake tower that draws in raw water is located at a lower portion of the water intake tower as shown in FIG. It consists of a single bulkhead of a predetermined height, the upper side of which is open.

This was to prevent the inflow of soil which is somewhat more specific than water by drawing only the water located in the upper part of the water layer through the water inlet of a certain height when the raw water is drawn from the intake tower of the intake tower. Soil flow could be reduced much more than when fresh water was introduced.

However, in the conventional intake port, the vortex phenomenon occurs at the upper part of the water layer when the raw water is attracted. Due to the recent changes in the environment, the inflow of various algae and foreign substances present in the upper part of the water layer is caused by the vortex phenomenon. It was not possible to control the problem of mass inflow by piggybacking.

Therefore, the present invention was devised to solve the above problems, and since the intake port of the conventional intake tower is opened to a single partition, the upper portion of the water inlet is only introduced into the water of the upper layer of the water layer when the inflow of water. Form a wear-type structure to form the passage of the double bulkhead and change the opening of the intake port from the upper part to the lower part to lower the water intake depth of the water layer to block the inflow of algae, and the soils flowing from the low water intake water pass through the double bulkhead passage. It is to be settled so that the inflow of the soil can be suppressed.

1 is a cross-sectional view showing a conventional water intake tower.

Figure 2 is a cross-sectional view showing a water intake tower of the present invention.

* Explanation of symbols for main parts of the drawings

1. Water intake tower 2. Water intake door 3. Water intake 4. Bulkhead 5. Gate

Hereinafter, the configuration of the present invention in detail with reference to the accompanying drawings as follows. In the intake port (3) is provided in front of the intake door (2) of the intake tower (1) having a conventional configuration, the double partition wall (4) so that the water flowing through the intake port (3) has a passage that goes up and down two or more times The inlet port 3 is formed in the upper and lower wear styles, and the opening 5 through which water is introduced is formed downward, and a gate 5 for discharging sedimented soil is installed at the lower end of the passage of the inlet port 3.

In the present invention, the inlet port 3 constitutes a double partition wall 4 of upper and lower wear type, and the installation of an opening through which water flows in the lower side is an eutrophic phenomenon such as red tide as in the conventional description. It is to suppress the inflow of various algae present in the upper layer of the water layer, and to minimize the inflow of algae present in the upper layer of the water layer by lowering the water intake by installing the opening at the bottom of the water layer.

In addition, the lower end portion of the water layer introduced through the intake port (3) during intake has a higher content of earth and sand than the upper layer, so that the water taken along the passage of the double partition wall of the intake port is repeatedly moved up and down, and the soil is contained in the water. The natural sediment is sedimented by its own specific gravity and is configured to be deposited at the bottom of the passage. Due to the upper and lower weir type double bulkheads, water is collected at the bottom of the water layer, but it may have the same effect as water taken from the top of the water layer.

On the other hand, as described above, the sediment deposited by spontaneous sedimentation in the double bulkhead is able to keep the passageway of the intake port clean at all times by opening a separate gate installed at the bottom of the passageway and periodically cleaning it.

The water intake tower of the present invention configured as described above can control the soil and algae existing at the upper and lower ends of the water layer by installing a double partition passage of upper and lower wear type, thereby increasing the durability of the mechanical and water supply facilities of the intake station. There are many economic advantages, such as maintenance costs and water purification costs can be reduced.

Claims (1)

In the intake port 3 is provided in the water intake tower 1 having a conventional configuration, The water inlet is formed in the upper and lower weirs of the double bulkhead so that the water flowing through the inlet is up and down two times or more; The structure of the water intake tower to minimize the inflow of sediment and algae, characterized in that the opening for intake to the lower side, and the gate for discharging the sediment deposited on the lower end of the passage of the intake.