KR20200113628A - device for projecting chlorine in water - Google Patents

Abstract

The present invention relates to a chlorine injection device and, more specifically, to a chlorine injection device capable of injecting an appropriate amount of chlorine into the inside of a pipeline according to the flow rate of purified water flowing along the pipeline of a water supply facility and the concentration of chlorine. The chlorine injection device according to the present invention includes: a flow meter installed in a pipeline to measure the flow rate of water flowing along the pipeline; a chlorine concentration sensor for measuring chlorine concentration by collecting a sample at a point spaced apart from the flow meter; a diffusion injection unit connected to a chemical supply unit to inject and diffuse chlorine into the pipe; and a control server for calculating the amount of chlorine to be injected into the pipeline based on the flow rate measured by the flow meter and the chlorine concentration measured by the chlorine concentration sensor to control driving of a metering pump.

Description

Device for projecting chlorine in water

The present invention relates to a chlorine injection device, and more particularly, to a chlorine injection device capable of injecting an appropriate amount of chlorine into the inside of the pipeline according to the flow rate of purified water flowing along the pipeline of a water supply facility and the concentration of chlorine.

In general, water supply that is purified at a water purification plant and supplied to each household through a drainage basin has the possibility of contamination by various pathogens in the drainage basin and pipeline.

Typically, the concentration of residual chemicals in the water supply is regulated to be maintained at a constant concentration in the faucet to ensure safety from waterborne pathogens including viruses. When the distance to the water supply pipe of the water supply facility is long or the amount of water supply is not used, the residence time in the water supply pipe increases, the water temperature increases, and the concentration of residual chemicals is lost due to the accumulation of foreign substances inside the water pipe. There was a problem that the disinfecting effect was lowered.

To solve this problem, on average, high concentrations of chemicals are added to the water supply facility to solve the loss of residual chemicals.However, since the concentration of residual chemicals in the faucet increases on average, the smell of disinfection increases and the use of water supply is reduced. There was a reluctance problem.

In order to solve the above-described problem, additional chemicals were added to the supplying process of drainage paper to secure the disinfecting power of raw water. However, the conventional drug supply device has a problem in that it is difficult to control the concentration of the residual drug. In addition, there is a problem that the chemicals injected into the pipeline do not mix well with water within a short time.

1. Republic of Korea Utility Model Registration No. 422964: Chlorine sterilization and disinfection device for simple water supply 2. Republic of Korea Patent Registration No. 0549015: Differential pressure generating device for automatic drug injection

The present invention was created to improve the above problems, and an object of the present invention is to provide a chlorine injection device capable of injecting an appropriate amount of chlorine according to the concentration of chlorine and the flow rate of water flowing along the pipeline of a water supply facility.

In addition, an object of the present invention is to provide a chlorine injection device in which the diffusion of drugs can be made more rapidly.

The chlorine injection device of the present invention for achieving the above object includes a flow meter installed in the pipeline to measure the flow rate of water flowing along the pipeline; A chlorine concentration sensor for measuring a chlorine concentration by collecting a sample at a point spaced apart from the flow meter; A drug supply unit including a drug storage tank in which chlorine is stored, a drug supply pipe connected to the drug storage tank, and a metering pump for discharging a predetermined amount of chlorine stored in the drug storage tank to the drug supply pipe; A diffusion injection unit installed in a pipe line between the flow meter and the chlorine concentration sensor and connected to the drug supply pipe to inject and diffuse chlorine into the pipe line; And a control server that calculates the amount of chlorine to be introduced into the pipeline based on the flow rate measured by the flow meter and the chlorine concentration measured by the chlorine concentration sensor and controls the driving of the metering pump.

The diffusion injection unit includes a connection pipe connected to the drug supply pipe, and a discharge unit connected to the connection pipe and installed inside the pipe, and having a plurality of discharge ports.

The discharge unit is formed with a receiving chamber to allow chlorine to flow into the interior through the connection pipe, a cylindrical discharge housing in which a plurality of discharge ports are formed at regular intervals, and an annular ring surrounding the discharge housing so as to be spaced apart from the discharge housing. A frame, one side is connected to the outer circumferential surface of the discharge housing, the other side is connected to the inner circumferential surface of the ring frame, and an upper torsion member formed to be twisted in a certain direction, and one side is installed parallel to the upper torsion member with the discharge port interposed therebetween. Is connected to the outer circumferential surface of the discharge housing, the other side is connected to the inner circumferential surface of the ring frame, and has a lower torsion member formed to be twisted in a direction opposite to the upper torsion member.

As described above, the present invention measures the flow rate of the water supply and the concentration of the drug in the water supply and reflects it in the amount of the drug input, so that the residual drug concentration can be adjusted to approximate the set concentration, thereby providing a quality water supply.

In addition, according to the present invention, by installing a discharging unit that induces the diffusion of the drug inside the pipe, the diffusion of the drug in the water supply can be made more quickly.

1 is a block diagram schematically showing a chlorine injection device according to an example of the present invention,
Figure 2 is a block diagram showing the configuration of the control server applied to Figure 1,
3 is a perspective view showing the configuration of the diffusion injection unit applied to FIG. 1,
4 is an exploded perspective view of the diffusion injection unit shown in FIG. 3,
5 is a cross-sectional view of the diffusion injection unit shown in FIG. 3.

Hereinafter, a chlorine injection device according to a preferred embodiment of the present invention will be described in detail.

The chlorine injection device of the present invention is made to properly maintain the concentration of residual chemicals so that high-quality water can be used at customers such as homes and factories. The chlorine injection device of the present invention measures the flow rate and chlorine concentration of water supplied from a water supply facility through a pipeline, and injects an appropriate amount of chlorine.

1 to 5, the chlorine injection device of the present invention includes a flow meter 10 installed in the pipe 1 to measure the flow rate of water flowing along the pipe 1, and a point spaced apart from the flow meter 10. It is installed in the chlorine concentration sensor 15 to measure the chlorine concentration by collecting a sample from the chlorine concentration sensor 15, the chemical supply unit 20 for supplying chlorine, and the pipeline 1 between the flow meter 10 and the chlorine concentration sensor 15. A diffusion injection unit connected to the chemical supply unit 20 to inject and diffuse chlorine into the pipe 1, and a pipeline based on the flow rate measured by the flow meter 10 and the chlorine concentration measured by the chlorine concentration sensor 15 (1) It is provided with a control server 100 for controlling the drive of the metering pump 25 by calculating the amount of chlorine to be added.

Pipeline (1) is connected to water supply facilities and is buried underground or installed on the ground. Water discharged from the water supply facility flows along the pipeline 1 and can be supplied to each customer.

The flow meter 10 is installed in the pipe 1 to measure the flow rate of water flowing along the pipe 1. The flow rate value measured through the flow meter 10 is input to the control server 100.

The chlorine concentration sensor 15 is installed in the pipe 1 to measure the chlorine concentration in the water flowing along the pipe 1. The chlorine concentration sensor 15 is installed at a point spaced apart from the flow meter 10 by a predetermined distance. The location of the chlorine concentration sensor 15 is spaced a certain distance from the flow meter 10 along the direction in which water flows. The chlorine concentration value measured through the chlorine concentration sensor 15 is input to the control server 100.

The drug supply unit 20 includes a drug storage tank 21 in which chlorine is stored, a drug supply pipe 23 connected to the drug storage tank 21, and a certain amount of chlorine stored in the drug storage tank 21 to the drug supply pipe 23. It is provided with a metering pump 25 to discharge.

The chemical storage tank 21 stores liquid chlorine chemicals such as calcium hypochlorite or sodium hypochlorite. It is possible to input the amount of the stored drug to the control server 100 through the water level sensor installed inside the drug storage tank 21.

One side of the drug supply pipe 23 is connected to the drug storage tank 21, and the other side is connected to the diffusion injection unit.

The quantitative pump 25 is installed in the drug supply pipe 23 and serves to quantitatively discharge a preset amount of chlorine. The operation of the metering pump 25 is controlled by the control server 100, and is operated to inject the drug into the pipeline 1 as much as the amount of the drug calculated by the control server 100 according to the value of the flow rate and the concentration of chlorine. .

The control server 100 includes a microprocessor 101, an operation unit 103, a display unit 107, a communication unit 105, and a power supply unit 109.

The microprocessor 101 calculates the amount of chlorine to be injected into the pipeline 1 according to the flow rate measured by the flow meter 10 and the data input from the chlorine concentration sensor 15 to determine the injection time, and accordingly, a metering pump ( 23) is controlled.

The operation unit 103 is provided with various keys including an automatic/manual operation key that can be switched to a manual mode when an administrator wants to control the metering pump 23 manually at the site. When the operation unit 103 is set to the automatic mode, the metering pump 23 is controlled by the microprocessor 101.

The display unit 107 displays various data such as flow rate and drug concentration, the remaining amount of the drug, and operation status on the display screen.

The communication unit 105 wirelessly transmits various data such as flow rate and drug concentration, and various information such as the remaining amount of the drug and the operation state to the control unit 110 through a communication network. As the communication network, a wireless communication network of various known methods such as a wireless Internet network is applied.

The power supply unit 109 is for supplying driving power to various devices, and may use a battery. Preferably, the present invention may have a structure capable of charging a battery by providing a self-powered means. A solar power generator or a wind power generator can be used as a self-powered means. In addition, it is possible to use a commercial power source together with a battery as a power source.

The control unit 110 installed in a remote location receives various data information wirelessly through a communication network and monitors various data such as flow rate and drug concentration, the remaining amount of drugs, and operation status. It is sufficient if the control unit 110 is constructed with a conventional computer structure capable of performing communication.

The diffusion injection part is connected to the chemical supply pipe 23 to inject chlorine into the pipe 1 and diffuse it. Accordingly, since the diffusion of the drug in the water supply can be made more rapidly, the accuracy of the measurement value of the chlorine concentration measured by the chlorine concentration sensor can be improved.

The diffusion injection unit has a connection pipe 31 connected to the chemical supply pipe 23, and a discharge unit 60 connected to the connection pipe 31 and installed inside the pipe 1 and having a plurality of discharge ports 63 formed therein. do.

The connection pipe 31 is connected to the chemical supply pipe 31 so that chlorine flows into the connection pipe 31. A discharge pipe 33 from which chlorine is discharged is protruded under the connection pipe 31. A thread is formed in the discharge pipe 33 and is screwed with the discharge housing 61.

The discharge unit 60 has a receiving chamber 62 formed so that chlorine can be introduced into the interior, and a discharge housing 61 having a plurality of discharge ports 63 at regular intervals, and a discharge housing 61 to be spaced apart from the discharge housing 61. An annular ring frame 65 surrounding the 61), and one side is connected to the outer circumferential surface of the discharge housing 61, and the other side is connected to the inner circumferential surface of the ring frame 65, and an upper torsion member 67 formed to be twisted in a certain direction. , It is installed in parallel with the upper torsion member 67 with the discharge port 63 interposed therebetween, one side is connected to the outer circumferential surface of the discharge housing 61 and the other side is connected to the inner circumferential surface of the ring frame 65, and the upper torsion member 67 And a lower torsion member 69 formed to be twisted in a direction opposite to that.

The discharge housing 61 has a cylindrical structure with an open upper portion and a closed lower portion. A receiving chamber 62 into which chlorine is introduced is formed in the discharge housing 61. A thread is formed on the inner peripheral surface of the upper side of the discharge housing 61. The lower portion of the discharge pipe 33 is inserted into the upper inner side of the discharge housing 61 and is screwed.

A plurality of discharge ports 63 are formed in the discharge housing 61. In the illustrated example, three discharge ports 63 are formed in the discharge housing 61 at intervals of 120 degrees. Chlorine introduced into the receiving chamber 62 of the discharge housing 61 is discharged into the pipe 1 through the discharge port 63.

The ring frame 65 is formed in an annular shape to surround the discharge housing 61 from the outside. The inner diameter of the ring frame 65 is larger than the outer diameter of the discharge housing 61.

The ring frame 65 is fixed around the discharge housing 61 by a pair of upper and lower twisting members 67 and 69. One side of the upper and lower twisting members 67 and 69 is coupled to the outer peripheral surface of the discharge housing 61, and the other side of the upper and lower twisting members 67 and 69 is coupled to the inner side of the ring frame 65.

The pair of upper torsion members 67 and lower torsion members 69 are arranged vertically with the discharge port 63 interposed therebetween and are positioned side by side. The upper torsion member 67 and the lower torsion member 69 are formed to be twisted in opposite directions.

When chlorine is discharged through the discharge port 63 into the inside of the pipe line 1, the flow occurs in opposite directions around the upper torsion member 67 and the lower torsion member 69. Therefore, the chlorine discharged through the discharge port 63 can be rapidly diffused into the inside of the pipe 1 while being effectively mixed with water.

In the above, the present invention has been described with reference to an embodiment shown in the drawings, but this is only exemplary, and those of ordinary skill in the art will understand that various modifications and equivalent embodiments are possible therefrom. . Therefore, the true scope of protection of the present invention should be determined only by the appended claims.

1: pipeline 10: flow meter
15: chlorine concentration sensor 20: medicine supply unit
21: medicine storage tank 23: medicine supply pipe
25: metering pump 100: control server

Claims (3)

A flow meter installed in the pipeline to measure the flow rate of water flowing along the pipeline;
A chlorine concentration sensor for measuring a chlorine concentration by collecting a sample at a point spaced apart from the flow meter;
A drug supply unit including a drug storage tank in which chlorine is stored, a drug supply pipe connected to the drug storage tank, and a metering pump for discharging a predetermined amount of chlorine stored in the drug storage tank to the drug supply pipe;
A diffusion injection unit installed in a pipe line between the flow meter and the chlorine concentration sensor and connected to the drug supply pipe to inject and diffuse chlorine into the pipe line;
And a control server for controlling the drive of the metering pump by calculating the amount of chlorine to be introduced into the pipeline based on the flow rate measured by the flow meter and the chlorine concentration measured by the chlorine concentration sensor. Device. The chlorine injection device according to claim 1, wherein the diffusion injection unit comprises a connection pipe connected to the drug supply pipe, and a discharge unit connected to the connection pipe and installed inside the pipe, and having a plurality of discharge ports. . The discharge unit according to claim 2, wherein a receiving chamber is formed to allow chlorine to flow into the interior through the connection pipe, and a cylindrical discharge housing in which a plurality of discharge ports are formed at regular intervals, and the discharge unit are spaced apart from the discharge housing. An annular ring frame surrounding the housing, one side is connected to the outer circumferential surface of the discharge housing, the other side is connected to the inner circumferential surface of the ring frame, and an upper torsion member formed to be twisted in a certain direction, and the upper torsion member with the discharge port interposed therebetween And a lower torsion member which is installed in parallel with, one side is connected to the outer circumferential surface of the discharge housing, the other side is connected to the inner circumferential surface of the ring frame, and is formed to be twisted in a direction opposite to the upper torsion member.

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