KR100885969B1 - Disinfectant effusion apparatus of service reservoir - Google Patents

Abstract

A disinfectant spraying apparatus is provided to employ a water outlet in an end of an inlet for water flowing into a water tub so as to mix sprayed water and disinfectant uniformly, thereby maximizing disinfectant effect. A disinfectant spraying apparatus comprises the following units. A main body is installed to spray water flowing into a water tub through an inlet(110). A plurality of outlets are arranged in all directions in an upper part of external of the main body. An opening of the outlet includes a taper which becomes narrow in order to increase velocity of water. A disinfectant inputting pipe(300) installed inside the main body discharges the disinfectant into the outlet.

Description

Disinfectant effusion apparatus of service reservoir

The present invention relates to a disinfectant injector having a function of preventing water flow stagnation in a water tank or a reservoir (hereinafter, referred to as a 'water tank'), and more particularly, to prevent a phenomenon in which water in a water tank is stagnated and stored in water. In addition, the present invention relates to a disinfectant injector having a function of preventing the stagnation of water flow in a tank that allows water and disinfectant to be evenly mixed to maintain a good storage water at all times.

In general, as residential life becomes more convenient, there is a growing interest in environmental pollution, and it is well known that people want to live in a cleaner and hygienic environment. In order to meet these demands, various efforts are being made such as the development of sewage and wastewater treatment devices to clear river water as a water source, and treatment equipment for water and sewage.

The treatment devices purify water through various stages (eg, flocculation and chemical precipitation, filtration, sterilization), and in these stages, water purification technology for supplying clearer water to end users is also possible. Various studies are being done.

Summarizing the water purification process for this water purification technology, it takes in drift water, double water, ground water from rivers, lakes, rivers, etc. After filtration through the process, the filtered water is stored in a drainage basin and disinfected and supplied to each household through a drain pipe.

1 and 2 are views illustrating a drainage basin for the water purification process as described above.

1 is a plan view of a conventional drainage tank, Figure 2 is a cross-sectional view showing a structure for a conventional drain basin.

As shown in FIG. 1 and FIG. 2, a water tank 10 for storing water is provided for the water purification process. Most of the structure of the water tank 10 is installed in a circular or square with a material such as concrete, FRP, PDF, stainless steel. In such a water tank 10, an inlet pipe 11 for allowing water to flow in, an outlet pipe 12 for outflowing water in the water tank 10, and to remove impurities deposited on the bottom of the water tank 10 The drain pipe 13 for completely draining the water in the water tank 10 and the overflow pipe 14 for overflowing the water in the water tank 10 when the inflow into the water tank 10 is larger than the outflow amount are provided. do. The inflow pipe 11, the outflow pipe 12, the drain pipe 13, and the overflow pipe 14 are provided in the outer wall one by one even if the existing water tank 10 is made of what kind of shape and material.

In addition, such a change in the water level in the water tank 10 does not change suddenly and is so small that there is almost no flow of water. Therefore, the water flows only around the inlet port 11a through which the water flows in through the inlet pipe 11 of the water tank 10 and the outlet port 12a through which the water flows out through the outlet pipe 12. The water is stagnant and shoots.

In particular, in order to disinfect the water in the water tank 10, the disinfectant is added to the water tank 10, wherein the disinfectant is added at about one or two places. However, since the water in the water tank 10 has almost no flow, the disinfectant does not mix well with the water. In order to prevent these phenomena, a drifting wall is installed to guide the flow of water, but this is insufficient to solve the fundamental problem.

In addition, since the outlet port 12a and the drain port 13a provided in the water tank 10 are mostly installed at almost the same height in the lower part of the base of the water tank 10, impurities deposited at the bottom of the water tank 10 are provided. There is a concern that they can be supplied to the home as it is, there is an inconvenience to collect the foreign matter in one place when cleaning the tank (10).

The present invention has been developed to solve the above-mentioned drawbacks, the object of which is provided with a water outlet at the end of the inlet pipe to be supplied into the tank, by disinfecting the disinfectant is mixed evenly with water by injecting a disinfectant into the inside of the outlet pipe By spraying and spreading with the incoming water, the water is confined without stagnation, so that the water and disinfectant are mixed evenly at all times to maximize the disinfection effect, and also the high quality water stored in the tank at the low water level (LWL) location It collects and discharges evenly through the outlet so that the water can be kept clean at all times without the water being drained. Also, a large number of drains are provided at the bottom of the tank to facilitate the cleaning. To provide a disinfectant spray device with a water flow stabilization function to ensure that the water is always kept in good quality. The.

The present invention for achieving the above object is in the disinfectant dispensing device of the tank to be able to inject the disinfectant into the tank including the inlet pipe, outlet pipe, drain pipe and the overflow pipe, which is introduced into the tank through the inlet pipe A cylindrical body having an upper portion closed at an end of the inflow pipe so that water can be sprayed and spread, and a plurality of discharge pipes are disposed radially on the outer circumferential surface of the body to be in contact with the outside, and the jet The outlet of the pipe is formed to form a taper narrowing the diameter to increase the flow rate, the water outlet for allowing the water flowing through the inlet pipe is vortexed; And a disinfectant in the water outlet is positioned below the inside of the body through the upper portion of the body to inject the disinfectant into the water outlet so that the disinfectant is mixed with water and evenly sprayed into the inside of the water tank. Characterized in that it comprises a disinfectant injection tube installed so.

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The end of the inlet pipe is characterized in that it is coupled to the body of the water outlet by a flange by installing a short-circuit tube formed in the cone shape of the ordinary light.

The drain pipe is installed on the bottom surface of the water tank a plurality of drain holes at regular intervals, the outlet pipe is characterized in that a plurality of outlets are installed at regular intervals to be located higher than the drain holes.

The water outlet and the disinfectant injection tube is characterized in that the inlet pipe to install a plurality of inlet at a predetermined interval to install a plurality of water inlet and the water inlet and the disinfectant injection pipe in each of the inlet.

The body of the water jet is characterized in that rotatably installed.

The present invention is provided with a water outlet at the end of the inlet pipe to allow the water to flow into the water tank to enable the diffusion and spraying of water and to add a disinfectant to the interior of the water outlet to disinfect water and disinfectant There is an effect that can be mixed evenly to maximize the disinfection effect.

In addition, the present invention by installing the outflow pipe to have a plurality of outlets, and by installing a drain pipe to have a plurality of drain holes so that the water in the tank is equally collected and outflow so that there is no water catching phenomenon and convenient cleaning The effect is that the stored water can always maintain good quality.

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

3 is a plan view showing the structure of the drain basin tank according to the present invention, Figure 4 is a cross-sectional view showing the structure of the drain basin tank according to the present invention.

As shown in the drawing, the present invention allows the water and the disinfectant to be evenly mixed with any material and shape of the water tank 100 to maximize the disinfection effect, and the flow of water is stagnant and eliminates the phenomenon of shooting and at the same time cleaning. It can be done easily. The water tank 100 for this purpose is installed inlet pipe 110 and outlet pipe 120, drain pipe 130 and the overflow pipe 140, the water outlet 200 is installed at the end of the inlet pipe 110 do. In addition, the disinfectant injection pipe 300 is installed so that the disinfectant may be injected into the water outlet 200.

The inlet pipe 110 installed in the water tank 100 is provided with a water outlet 200 at the end of the inlet pipe 110 in order to be able to spray diffusion into the water tank 100, the water outlet Install the disinfectant input pipe 300 to be able to put the disinfectant inside the (200). A detailed description of the water outlet 200 and the disinfectant injection tube 300 will be described in detail with reference to FIGS. 6 and 7 later.

As shown, the present invention is installed in the center of the water tank at the same height as the high water level (HWL) of the water tank 100 in the installation position of the water outlet 200 is installed at the end of the inlet pipe 110 to spray water It works to spread.

In addition, the water flowing out through the outlet pipe 120 is provided with a plurality of outlets (122a ~ 122d) to be evenly collected and discharged, and the plurality of drain holes (132a, 132b) in the drain pipe (130) Install it. The detailed structure of the outlet pipe 120 and the drain pipe 130 will be described with reference to FIG.

As shown in the drawing, the overflow pipe 140 provided in the present invention is for safety when the inflow amount of water entering the water tank 100 through the inlet pipe 110 is greater than the outflow amount of water flowing out through the outlet pipe 120 To overflow the water, the overflow pipe 140 is provided in all the conventional water tank.

5 is a perspective view showing an installation state of the outflow pipe and the drain pipe provided in the water tank according to the present invention.

As shown in the drawing, the outlet pipe 120 provided in the present invention collects water by installing a plurality of outlets 122a to 122d at equally spaced intervals at a low water level (LWL) position of the water tank 100. To flow through the outlet pipe (120). Accordingly, water is collected and discharged evenly through the plurality of outlets 122a to 122d to prevent water from stagnating and catching water, and preventing impurities deposited in the tank from being sent to the home. can do. That is, by installing a plurality of inlets, that is, outlets 122a to 122d at the low water level at a low water level at a predetermined height from the bottom of the tank, impurities deposited on the bottom of the tank are not leaked to the outlet pipe 120. Do not let it.

In addition, reference numeral 124 denotes a valve, and the valve 124 is installed in any tank, and is intended to block water in case of emergency.

As shown in the drawing, the drain pipe 130 provided in the present invention is for facilitating removal and cleaning of impurities deposited on the bottom of the tank (bottom), and a plurality of drain holes 132a and 132b on the bottom (bottom) of the tank. By installing the evenly connected to the drain pipe 130, it is possible to quickly collect and discharge foreign substances during cleaning.

In addition, reference numeral 134 denotes a valve, and such a valve 134 is installed in any tank and is used for cleaning.

FIG. 6 is a plan view of a water jet port provided in the sump tank according to the present invention, and FIG. 7 is a sectional view taken along line I-I of FIG. 8 is a cross-sectional view illustrating a modification of the display of FIG. 6.

As shown in the figure, the shape of the water jet 200 is provided at the end of the inlet pipe 110 provided in the present invention is provided with a cylindrical body of a cylindrical shape. The body 210 is hermetically sealed at the top, and is composed of an opening provided with a flange 212 at the bottom.

In addition, the body 210 is formed larger than the diameter of the inlet pipe 110, the height of the body 210 is formed in a size corresponding to the diameter of the body 210. This is to ensure a space for the water and the disinfectant flowing through the inlet pipe 110 is well mixed.

On the upper outer wall side of the body 210, a plurality of ejection pipes (220a ~ 220e) is installed in radial contact with the outside. That is, the ejection pipes 220a to 220e are installed in a propeller type to serve to inject water and simultaneously conduct water.

As such, the ejection pipes 220a to 220e installed on the upper outer wall of the body 210 serve to conduct water in a wider range by installing to have a predetermined length from the center of the body 210.

In addition, the outlet of the jet pipes 220a to 220e forms a taper whose diameter is narrowed to increase the flow rate of water introduced through the jet pipes 220a to 220e. At this time, the outlet diameters of the ejection pipes 220a to 220e constituting the taper flow rate flowing through the inlet pipe 110 when the diameters of the outlets provided in the respective ejection pipes 220a to 220e are added together. It is formed to a positive size that will not affect the overflow rate is maintained, and uses the energy to spray and diffuse water and to drift.

In addition, in order to couple the body 210 to the end of the inlet pipe 110, the end of the inlet pipe 110 is provided with a short-circuit pipe 112 made of a cone shape of the upper and lower narrow side of the body 210 To the flange 212. In this way, by maintaining the body 210 and the flanking tube 112 in the form of a flange can be convenient for maintenance. In particular, the short-circuit pipe 112 is installed at the end of the inlet pipe 110 is formed in a cone shape of the upper and lower narrow can be caused to vortex phenomenon by the water flowing through the inlet pipe 110 is diffused.

In addition, the disinfectant dispensing pipe 300 is installed to be able to inject the disinfectant into the water outlet 200 is installed to be located to the bottom of the body 210 through the center portion sealed to the top of the body 210. Disinfectant can be added. When the disinfectant is injected into the interior of the body 210 through the disinfectant injection tube 300, the disinfectant is the body by the flow rate of water flowing through the short-circuit pipe 112 is installed at the end of the inlet pipe 110 Vortex phenomena occur in the interior of 210, in which water and disinfectant are mixed and evenly spread in the water tank.

Reference numeral 302 denotes a valve, which can open and close the disinfectant injection pipe 300.

Such a water jet 200 can be configured to be rotatable as shown in FIG. That is, when the flange 212 is installed to the lower portion of the body 210 to be coupled to the step 214 so that the body 210 is rotated, by the water flowing through the inlet pipe 110 The water jet 200 may be rotated. When the water outlet 200 is rotatably configured, the spray diffusion effect of the water may be further maximized.

9 is a cross-sectional view showing another embodiment of a basin tank according to the present invention.

As shown in the drawing, the water outlet 200 and the disinfectant injection pipe 300 may be installed in a plurality of tanks. That is, when the size of the water tank 100 is large, the inlet pipe 110 is installed at a plurality of inlets at regular intervals at a high water level (HWL) position in the water tank 100, and water outlets are formed at the respective inlets. 200) and the disinfectant injection pipe 300 may be installed.

1 is a plan view of a conventional drainage tank,

Figure 2 is a cross-sectional view showing a structure for a conventional reservoir basin,

3 is a plan view showing the structure of the sump basin according to the present invention,

Figure 4 is a cross-sectional view showing the structure of the sump tank according to the present invention,

5 is a perspective view showing an installation state of the outflow pipe and the drain pipe provided in the drain tank according to the present invention,

Figure 6 is a plan view of the water jet port provided in the reservoir basin according to the present invention,

FIG. 7 is a cross-sectional view taken along the line I-I of FIG. 6;

8 is a cross-sectional view showing a modification of the display shown in FIG. 6;

9 is a cross-sectional view showing another embodiment of a basin tank according to the present invention.

Explanation of symbols on the main parts of the drawings

100-Tank 110-Inlet

120-outlet 130-drain

200-Water Jet 210-Body

220-Jet pipe 300-Disinfectant injection pipe

Claims (6)

delete In the disinfectant dispensing device of the tank which can disinfect the disinfectant into the tank including the inlet pipe, outlet pipe, drain pipe and overflow pipe, A cylindrical body having an upper portion closed at an end of the inflow tube so that water introduced into the tank through the inflow pipe may be sprayed and spread, and a plurality of ejection pipes are in contact with the outside on the outer circumferential surface of the body. The outlet of the jet pipe is formed to form a tapered narrower diameter to increase the flow rate, so that the water flowing through the inlet pipe is vortexed to discharge the water discharge port; And The disinfectant inside the water jet is mixed with water so that the disinfectant may be injected into the water jet so that the disinfectant may be injected into the water outlet so as to be positioned below the inside of the body. Disinfectant injection device having a water flow stagnation prevention function of the tank including the disinfectant injection tube installed. The disinfectant according to claim 2, wherein the inlet pipe is provided with a cone-shaped pipe in the shape of a cone of a light beam and is connected to the body of the water outlet in a flanged manner. Injector. The method of claim 2, wherein the drain pipe is installed on the bottom surface of the water tank a plurality of drain holes at regular intervals, the outlet pipe is installed in a plurality of outlets at regular intervals so as to be located at a position higher than the drain holes. Disinfectant injector with water flow stabilization in the tank. According to claim 2, wherein the water outlet and the disinfectant inlet pipe to install a plurality of inlets in the inlet pipe at a predetermined interval to install a plurality of the water inlet and the disinfectant inlet pipe respectively in the inlet Disinfectant injection device having a water flow stagnation prevention function of the tank, characterized in that the installation. The disinfectant injection device having a water flow stagnation prevention function of the water tank according to claim 2, wherein the body of the water jet port is rotatably installed.

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