KR20040101855A - The use of kinetic energy and calcium hypo chlorite can do sterization and store water tank - Google Patents

Abstract

PURPOSE: To provide a functional tank for storing water sterilized by using fluid kinetic energy and calcium hypochlorite, wherein a sterilizing function is additionally added to a simple storage function of a conventional water tank so that the tank functions as a functional water tank to supply fresh and safe water by inhibiting the propagation of general bacteria and microorganisms in storage of drinkable water. CONSTITUTION: The functional tank is characterized in that water transfer rate and water transfer pressure of incoming transfer water are controlled by using the submerged orifice principle, free vortex motion is generated by changing a flow direction of fluid into a dissolving and supplying tank counterclockwise through a nozzle, a dissolved solution contacted with calcium hypochlorite is injected into the tank by the free vortex motion without mixing with other places due to rotational water stream, micro-concentration of residual chlorine is controlled, and both disinfection and storage are performed when transfer water flows in the tank, wherein the tank comprises a chemical injection portion outer housing(1), a water transfer pipe(2), an over drain pipe(3), a water tank manhole(4), a chemical injection portion cover(6), a chemical storage tank cover(7), a concentration controller(8), a first equalization tank(9), a second separation tank(10), a first separation tank(11), a second equalization tank(12), a dissolving and supplying tank(14), a chemical injection pipe(14), a mixing and injecting pipe(15), a water tank(16), a cleaning pipe(17), a chemical storage tank(18), a water supply pipe, a concrete foundation(20), a raw water inflow pipe, and a nozzle.

Description

The use of kinetic energy and calcium hypo chlorite can do sterization and store water tank

The present invention relates to a water storage method in a water tank to be used as drinking water. In general, when water is introduced into the water tank, it is stored as it is consumed when water is used in each household connected to the drainage pipe and the stored water reaches a low level so that the pump is driven again by the installed water level to store water. However, if the amount of water used is small, the residence time in the water tank is long and the water supply distance is long. Even if the water is disinfected, chlorine may evaporate due to evaporation and there is no residual chlorine when storing water such as groundwater or surface water in the water tank. Hygiene is a very dangerous result. Therefore, in the conventional method, it is necessary to inject liquid chlorine into the water supply pipe with a metering pump or install a sterilizer separately in the water tank. have. In other words, problems such as electrical construction, plumbing work, and defects after installation due to product installation are actually occurring. To solve this problem, an integrated tank requiring disinfection and storage at one time is required. Therefore, a water-free structure with no electricity is used to form a constant head at the top of the water tank 16 using the principle of the submersible orifice in the first flow control tank 9 with the water pipe inside the water tank, and the pressure due to the head is formed again. In the second flow adjusting tank 12, the diving orifice principle was used to allow a constant flow rate to participate in the melting. This serves to keep it constant during drug dissolution. This has led to the development of a non-powered sterilization storage tank that uses water to change the direction of the water using different physical forces and extracts only the required amount of kinetic energy.

In this case, it is possible to simply disinfect the drain tank without installing electricity or installing a solar device to install a sterilizer in the water tank, and also eliminate the risk of leakage and freezing of pipes exposed outside the water tank 16. In addition, disinfectant is safe and economical by using calcium hypochlorite, and unlike ozone or UV has a residual, it contributes to the complete drinking water supply as a complete disinfection tank.

The present invention has a role of a functional water tank by adding a sterilization and disinfection function in addition to the conventional water tank simply storage function, the tank itself in the storage of drinking water to prevent the growth of general bacteria and microorganisms fresh and safe water In order to supply the following technical challenges are required. First, when the water tank is manufactured, the inlet water pipe (2) should be installed in the water tank to be connected to the external water pipe. In addition, the discharge portion of the water pipe (2) is to have a structure that rises to the lower portion of the first flow rate adjustment tank (9), so that calcium hypochlorite is dissolved in the melting portion to be made into a structure that is contained in the storage tank like the incoming water. Second, the water tank standard is suitable for 10 to 100 tons, the material is made of stainless steel and steel, but can be formed of PE material, and the part directly contacting the chemical to the melting part should be made of acid-resistant material. In addition, the chemical storage tank storing calcium hypochlorite should be made of acrylic or transparent acid resistant material to observe the consumption condition of the chemicals. Third, a concentration regulator 8 that can adjust the contact surface to the chemical reservoir to make the amount of dissolution in proportion to the water supply should be configured. Fourth, the bottom surface of the water tank should be configured to be inclined more than 15 ° from the center. The reason is for sedimentation separation and removal of foreign matter such as sand in the influent. For this purpose, it should be preceded by the foundation work of concrete placing at the installation location of the water tank. Fifth, the position of the steel pipe should be selected in advance in the foundation work of the water tank. For example, water pipe position, overflow pipe position, cleaning tool position, drain pipe position, etc. should be selected in advance. This can achieve the effect of sterilization and storage at the same time when the water inflow. In addition, since all the pipes are configured inside the tank, there is no need to take any special measures for freezing and warming the winter pipes, and to create a functional water tank that combines disinfection and storage.

1 is a schematic perspective view according to the present invention.

2 is a detailed elevation view according to the present invention.

3 is a plan view of the drug inlet according to the present invention.

4 is a detailed plan view of the drug inlet according to the present invention.

Description of the main parts of the drawing

(1) enclosures for chemical inputs (2) water pipes (3) overdrain pipes (4) water tank manholes (6) covers for chemical inputs (7) covers for chemical reservoirs (8) concentration regulators (9) first flow regulators (10) 2) Separation tank (11) 1st separation tank (12) 2nd flow rate adjustment tank (13) Dissolution supply tank (14) Chemical injection pipe (15) Mixed injection pipe (16) Water tank (17) Cleaning pipe (18) Reservoirs (19) Supply pipes (20) Concrete foundations (21) Raw water inlet pipes (22) Nozzles.

Hereinafter, a configuration and an operation according to the present invention will be described with reference to the accompanying drawings.

The water pipe 2 is constructed from the center of the water tank 16. At the center of the water tank 16, a tapered screw is configured to facilitate assembly with the external water pipe. It is also connected to the first flow rate adjustment tank 9 of the upper portion of the water tank 16 and in the first flow rate adjustment tank 9 to change the flow direction using L-bow to prevent it from being ejected upward. The first flow rate adjusting tank 9 is configured to overflow, thereby forming a first head aberration. The excess flow rate is transferred to the first separation tank 11 and then connected to the mixing injection pipe 15 of φ 75 to be used for pressure relief of the water supply pipe 2. In addition, the target flow rate required for melting is transferred to the second flow rate adjusting tank 12 through a pipe having a diameter of 15. The second flow rate adjustment tank 12 is also flowed to the second separation tank 10 is transferred to the chemical injection pipe 14 of φ25 and a part of the flow rate participating in the dissolution is supplied through the nozzle of φ8 (melt supply tank ( It was comprised so that it might contact with the chemical | medical agent laminated | stacked on the chemical | medical agent storage tank 18, conveying to 13). In addition, it is configured to adjust the target concentration by varying the amount of contact in proportion to the inflow flow. Control of the concentration was configured to adjust the concentration while varying the amount of contact by moving the chemical reservoir 18 up and down with the concentration controller (8).

Next, the water supply point of the water tank 16 is configured to stop at the high water level and operate at the low water level as in the existing method, and the overdrain pipe 3 for controlling the overflow amount of the water tank 16 is also configured inside. It is prepared for winter freezing and has a clean effect on water tank. In addition, some heavy heavy sand or mud was formed by collecting the lower bottom of the water tank 16 into the cleaning device 17 by constituting the 15 ° hopper to open and remove the valve when cleaning the water tank 16. In order to prevent the inflow of rainwater or some contaminated material into the water tank 16, the mandrel of 600 × 600 and the top of the tank were inclined 5 °, and the top of the chemical input was also inclined 5 °. The outer cover is configured for chemical storage and internal monitoring. The diameter of the water discharge pipe is φ75 for uniform mixing of the chemical solution and the water, and the chemical solution injection pipe of φ25 is shorter than the discharge pipe. . The movement of the fluid in the dissolution supply tank 13 generated a turning force by constructing the chemical dissolution liquid discharge cap of φ5 at the center of the dissolution supply tank 13 to form a free-vortex motion and the nozzle of φ8. Perforated in the counterclockwise direction to rotate the fluid in the counterclockwise direction by adding a winsimm force to the forward force was configured to generate a stronger rotation force. This is to use the free vortex motion in the dissolution supply tank so as not to lose the rotational force even if a resistor called a chemical reservoir. In addition, in order to introduce a certain amount of flow rate, the first flow rate adjusting tank 9 and the second flow rate adjusting tank 12 apply the principle of submerged orifice so that only a certain flow rate flows into the dissolution supply tank so that the rotating water flow is constant. The rate of diffusion of the chemical reservoir is constantly falling off.

In order to investigate the disinfection effect in the area where 30 households drink, the water flow rate was 200 L / min and the change of residual chlorine during one day and the residual chlorine during one month were tested at 6 points of concentration controller. The results are as follows.

First, the results of the investigation for whether there is a decrease in disinfection power by time of day are shown in the graph below.

As shown in the above results, there was little change in concentration. As a result, the change in the amount of residual chlorine over the day was not affected by the disinfection. Displacement of concentration was maintained at 0.3-0.5 mg / L. Next, the result of measuring the concentration for one month is as follows.

The above experiment was carried out to see the rate of change of concentration according to distance at the place of injection, and also to see if the disinfecting power was lowered by the chemicals put in for a month. As a result, 1.0-0.2 ppm which is a desired reference value was maintained. As a result, there was no change in the disinfection power and almost no change in concentration with distance. Error in concentration change with distance was ± 0.05 ppm at the same time.

According to the above description, there is an effect of changing the inefficient form in the water tank, which has been stored separately and disinfected so far, and according to the above invention, it is possible to reduce the cost consumed when installing several devices separately. have. In addition, disinfection can prevent the occurrence of secondary pollution by entering into the drinking water, which is the problem of correction of the canning when installing the disinfection equipment and the pollutants such as the damage of the already installed water tank and the rainwater caused by the damage. It also has the effect of being safe in freezing winter by allowing all pipes to enter the tank.

Claims (4)

Using the principle of submerged orifice, the inflow water is controlled by the amount of water supply and water pressure, and the free flow motion is generated by deforming the flow direction through the nozzle counterclockwise to the dissolution supply tank, and this solution is in contact with calcium hypochlorite. This is a sterilized storage functional water tank using kinetic energy and calcium hypochlorite that can be disinfected and stored at the time of inflow of water into the bath without mixing to other places by mixing the rotating water. The water tank according to claim 1, wherein the water tank is made of stainless steel or steel, and rust-preventive coating and coating or sand deposits can be removed by giving a bottom slope. The method according to claim 1, wherein the dissolution device combining the principle of diving orifice and the principle of free vortex motion is combined with other existing water tanks and sterilization storage function using calcium kinetic fluid and fluid kinetic energy that can be sterilized and stored simultaneously. Water tank. The sterilization storage functional water tank according to claim 1, wherein the fluid kinetic energy and calcium hypochlorite can be formed or manufactured from PE, FRP, and other materials.