KR101049531B1 - Signal generator using water meter for quantitative disinfectant supply. - Google Patents

Abstract

The present invention relates to a signal generating device using a water meter for injection of quantitative disinfectant chemicals, and more specifically, a ratio determined when a certain amount of flow rate passes through a known water meter installed for measuring the flow rate through a pipe per unit time. In accordance with the present invention, a rotating body that is constantly rotating according to the present invention is installed, and a signal generator is installed on the rotating body so that the sensor unit mounted on the outside of the body case detects it and transmits it to the control panel. As a result, the disinfectant at a certain concentration remains at all times, thereby making it possible to supply sanitary drinking water.

Description

Signal generator using water meter for supply of quantitative disinfectant. {Omitted}

1 is a schematic view of the entire apparatus of the present invention;

2 is a plan view of the signaling water meter of the present invention;

3 is a perspective view of a water meter of the present invention.

Figure 4 is a perspective view of the rotation guide of the present invention.

5 is a water meter short-lived view of the present invention.

Figure 6 is a partial cross-sectional view of the rotation guide reflector of the present invention.

7 is a partial cross-sectional view of a light emitting diode and a light receiver of the present invention.

8 is a cross-sectional view of the resistance sensor installation of the present invention.

9 is a cross-sectional view of the contact bolt installation of the present invention.

Figure 10 is a plan view of the installation of the leaf spring in the rotation guide of the present invention.

11 is a cross-sectional view showing a rotation guide and the rotation guide axis of the present invention.

12 is a cross-sectional view of the switching rod installation of the present invention.

13 is a layout view inside the control panel of the present invention.

Figure 14 is a schematic diagram of the chemical tank and the chemical injection pump installation of the present invention.

15 is a detailed schematic of the limit switch of the present invention.

16 is a schematic diagram of the circuit configuration of the heart pump and the chemical injection pump of the present invention.                 

17 is a circuit connection configuration diagram of the present invention.

18 is a schematic view of the valley water disinfecting drug input device of the present invention

19 is a schematic diagram of generator installation of the present invention.
<Description of the symbols used in the main parts of the drawing>
1: heart pump, 2: pump
3: check valve, 4: gate valve
5: signal generator, 10: propeller
12: sensor unit, 13: operation control device
14: metering pump, 15: control panel
16: chemical injection hose, 17: reduction gear
18: reflector, 19: rotation instructions
20: axis, 21: resistance generating device
25: switching rod, 26: switch
28: leaf spring, 30: return spring
33: rotation instruction contact part, 34: sensor part contact part
36: contact bolt, 40: light emitting diode
50: chemical tank, 60: water tank

The present invention relates to a signal generating device using a water meter for injection of quantitative disinfectant chemicals, and more specifically, a ratio determined when a certain amount of flow rate passes through a known water meter installed for measuring the flow rate through a pipe per unit time. In accordance with the present invention, a rotating body that is constantly rotating according to the present invention is installed, and a signal generator is installed on the rotating body so that the sensor unit mounted on the outside of the body case detects it and transmits it to the control panel. As a result, the disinfectant at a certain concentration remains at all times, thereby making it possible to supply sanitary drinking water.

In general, in areas where water supply is not available to farming and fishing villages, the majority of drinking water develops valley or rock groundwater, and the collected water is primarily stored in water tanks and supplied to each household. This situation is similar to not only farming and fishing villages but also some agricultural industrial complexes that use groundwater because water is not supplied, and one of the most difficult problems in this process is the continuous disinfection of water tanks.

As a result of the problems caused by using water in an undisinfected water tank, related regulations have been newly established to install disinfectant injection devices in water tanks using valley water or ground water.

Due to this necessity, many kinds of disinfectant injection devices have been developed and installed in water tanks. The alternative devices are liquid hypochlorite, solidified chlorokalky tablets, and injection devices using ozone gas. However, alternative chemical injection devices only calculate the approximate injection volume when the groundwater well pump is running and allow the disinfectant injection pump to run, or within the water tank for a certain period of time, such as once a week or once every 10 days. It is a situation that a device is being manufactured and installed so that the solidified chroma key is constantly input.

The main reason for this situation was that there was no simple method or device to measure the amount of water supplied to the correct water tank, and in order to add disinfectant through measurement, a measuring device for expensive water supply measurement was required. In this case, the price of the measuring device rather than the injection device is higher, which is impossible to realize.

The present invention has been made in view of the above points,

Accurately measure the amount of water supplied to the water tank using a water meter, and use the measured data to start and stop the chlorine injection volume by adjusting the operating time of the chlorine chemical metering pump. It is an object of the present invention to provide a device that enables to maintain a hygienic water supply to maintain.

Another object of the present invention is to accurately measure the amount of water supplied to the water tank using a water meter and to adjust the operation of the solid chlorine input device using the measured data to maintain a constant residual chlorine in the water tank at all times. It is an object of the present invention to provide a device that allows water supply.

Another object of the present invention is to accurately measure the amount of water supplied to the water tank using a water meter and to adjust the operating time of the ozone generator using this measurement data, so that residual ozone is always present in the water tank so that sterilization can be achieved. It is an object of the present invention to provide a device to enable hygienic water supply.

Another object of the present invention is to stop the cardiac pump and the metering injection pump when all the disinfectant is exhausted so that the operator can confirm that the disinfectant is exhausted to supply only the sterilized water.

Water tank chemical metering injection pump operating device using a water meter comprising a signal generator according to the present invention for achieving the above object,

A signal generating water meter which has a contact point by rotating the rotation guide by rotating the propeller by the force of water passing through the water meter;

A sensor unit configured to detect a contact signal in a signaling water meter;

A control panel for calculating and controlling an amount of water supplied per unit time based on a signal sensed by the sensor unit and calculating and controlling an operation time of a quantitative injection pump for adjusting an appropriate residual chlorine concentration;

Characterized in that the drug supply tank is connected to the chemical injection tank to supply disinfecting chemicals to the water tank water supply pipe.

Here, in another embodiment of the present invention after the rotation guide is installed in the water flowr to rotate at a speed significantly slower than the rotation speed of the propeller formed while the water is passed by the reduction gear and after installing the reflector at the tip of the rotation guide It may be configured to reflect the signal emitted by the diode emitted from the sensor unit configured in the body case so that the signal can be read by the sensor unit.

In another embodiment of the present invention, the water meter may be configured to directly open or close the circuit by directly contacting the contact installed in the sensor unit by the rotation instructions, and to transmit the signal to the operation control device or the control panel. .

Here, in another embodiment of the present invention, the drug injection pump may be replaced with a solidified disinfectant injection device.

In addition, in another embodiment of the present invention, the chemical metering injection pump may be replaced by an ozone generator.

Hereinafter, with reference to the accompanying drawings, a water tank chemical metering pump operation device using a water meter system comprising a signal generator according to the present invention will be described in detail.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.                     

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

1 is a schematic diagram illustrating a state in which a water tank chemical metering pump operation apparatus using a water meter including a signal generator according to an embodiment of the present invention is installed.

As shown in the drawing, the groundwater pumped by the well pump 1 from the groundwater well is raised to the ground while passing through the pumping pipe 2 and installed with the water meter system (gate valve 4 and shank) installed to measure groundwater usage. After passing through the valve (3) consisting of the signal generator (5), the water supply to the water tank 60 is eventually along the water pipe network.

Typically, the water meter system, the gate valve 4, the check valve 3, and the water meter system constituting the signal generator 5 are all configured inside a pumping house constructed to protect the facility.

On the other hand, when the valley water flows into the water tank 60, the water meter, the gate valve 4 and the check valve 3 are omitted, and the signal generator 5 inside or outside the water tank 60 is installed. It is possible to configure a water meter consisting of.

When water flows through the water meter constituting the signal generator 5, the propeller 10 installed inside the water meter rotates, and according to the number of revolutions of the propeller 10, the amount of water passing through the water meter can be read out numerically or on a scale. It is supposed to be. In the case of the water meter including the signal generator 5, the oscillator is installed such that the pulse signal is oscillated while the propeller 10 rotates, and the pulse signal is detected by the sensor unit 12 and calculated through a wireless or wired cable. It is connected to the control device (13).

In the operation control device 13 calculates the amount of water supplied to the water tank 60 through the water supply pipe 7 per unit time by calculating the signal coming from the sensor unit 12. At this time, the amount of chlorine that can be supplied per unit time by the metered injection pump 14 is already determined, so that the amount of chlorine remaining in the water tank 6 is, for example, maintained at about 0.3 p.m. This determines the time for which the metering pump 14 should be operated. The operation control device sends a signal to the control panel of the metering pump as long as the metering pump is operated, and during this time, the metering pump 14 is operated to allow chlorine injection.

In addition, the water tank in which the water supply pump does not operate at all times and is stagnant may be programmed and operated to inject the appropriate amount by operating the chemical injection device in a timely manner by a timer with a built-in operational control device.

When the fixed quantity injection pump 14 is operated at the same time as the groundwater core well is operated, the water supply pressure is kept high, so that when the fixed quantity injection pump 14 is operated, a high pressure injection pressure is required and the fixed quantity injection pump 14 is stopped. Even if it is, the check valve is installed between the water supply pipe (7) and the chemical injection hose (16) in order to prevent the high pressure groundwater flows back to the metering injection pump (14).

The basic configuration of the apparatus for moving the water tank chemical metering pump 14 using the water meter system configuring the signal generator 5 according to another embodiment of the present invention is the same as the above-described embodiment. However, in the present embodiment, the reflection plate 18 is attached to the shaft 20 in which the speed of rotation of the propeller 10 that rotates when water passes through the water meter constituting the signal generator 5 is reduced by the reduction gear 17. Reflecting plate 41 reflects the light of the light emitting diode 40 which is installed at a predetermined position of the water meter which is configured with the rotating guide 19 and the signal generator 5 so as to emit light. The amount of water supplied to the water tank can be calculated by the arithmetic and control unit 13 by detecting the number of revolutions per unit time by detecting in (12). On the other hand, it is already known in the art that the propeller 10 may be manufactured in another form such as a turbine and have a function according to the type of water meter. A water meter can also be understood as a water meter.

The basic configuration of the water tank chemical metering pump operation apparatus using a water meter constituting a signal generator according to another embodiment of the present invention is the same as the above-described embodiment. However, in the present embodiment, the rotation guide (19) is attached to the axis in which the resistance generating device is attached to the shaft which reduced the rotational speed of the propeller 10 that rotates when water passes through the water meter constituting the signal generator (5) The controller 12 detects the resistance formed by passing through the resistor in the sensor unit 12 installed at a predetermined position of the water meter including the signal generator 5 and calculates the number of revolutions per unit time to calculate the amount of water supplied to the water tank. It can be calculated in 13).

In addition, as another embodiment of the present invention by attaching a permanent magnet to the rotating guide 19 using a permanent magnet instead of a resistor, the permanent magnet passes through the sensor unit 12 installed at a predetermined position of the water meter which constitutes the signal generator 5. The amount of water supplied to the water tank can be calculated by the arithmetic and control device 13 by detecting a signal formed while calculating the number of revolutions per unit time.

The basic configuration of the water tank chemical metering pump operation apparatus using a water meter constituting a signal generator according to another embodiment of the present invention is the same as the embodiment described above. However, in the present embodiment, the rotation guide is generally wider on the shaft 20, which is reduced by the reduction gear 17, the rotational speed of the propeller 10 that rotates when water passes through the water meter constituting the signal generator 5 (19) was installed. The rotation guide 19 has a semicircular plate shape and may be installed in a symmetrical form. A leaf spring 28 is installed at a predetermined position inside the water meter which constitutes the signal generator 5, and the leaf spring 28 is normally opened inwardly and the hole penetrated outwardly between the open water meter cases. (24) is configured, the O-ring is inserted into the hole (24), and the switching rod (25) provided with the return spring (30) is inserted. The limit switch 26 is installed outside the water meter case so that the switching rod 25 is not exposed to the outside to form a contact.

In addition, as another example using the present invention, the rotating guide plate 26 which can separate and shield the inside and outside of the water meter system while drawing only the rotating guide shaft 20 for rotating the rotating guide 19 to the outside. It was assembled, but the external thread of the rotary guide plate 26 was machined to be fastened to the internal thread machined on the inner circumference of the water meter system. The O-ring 27 was inserted into the rotation guide shaft 20 so that no leakage occurred through the rotation guide shaft 20.

The rotary guide shaft 20 was fitted with a fixed rotary guide 19 and the rotary guide 19 was installed by fixing the limit switch 26 on the outside of the water meter so that the contact can be made while rotating.

The contact section 33 is formed at the tip of the rotation guide 19 and the other contact section 24 is formed at the sensor section configured outside the water meter so that the rotation guide contact section 33 passes through the sensor section contact section 34. When the contact function was achieved.

This proposal is to make it easy to configure the contact from the outside by the rotation guide 19 is rotated according to the water supply even when there is no water leakage when the high water pressure is present inside the water meter.

In addition, when the number of rotations of the rotating guide 19 increases within a certain period of time, the contact point of the rotating guide 19 may be increased in order to prevent leakage caused by wear of the leakage preventing O-ring 27. The number of revolutions may be reduced.

In addition, the upper surface of the water meter to cover the glass fixing cover 35, which is fitted with a protective glass 34, so that no contaminants such as dust sit, and the drain hole is formed at the same level as the upper surface of the rotating guide plate 26, The small amount of leakage generated through the guide shaft can be drained to the outside without collecting.

The basic configuration of the water tank chemical metering pump operation apparatus using a water meter constituting a signal generator according to another embodiment of the present invention is the same as the embodiment described above. However, in the present embodiment, the rotation guide is generally wider on the shaft 20, which is reduced by the reduction gear 17, the rotational speed of the propeller 10 that rotates when water passes through the water meter constituting the signal generator 5 (19) was installed. The rotation guide 19 has a semicircular plate shape and may be installed in a symmetrical form, and a leaf spring 28 is attached to the end thereof. Of course, the rotating guide 19, the leaf spring 28, and the internal components are generally made of a conductive material so that the electrical signals can be transmitted well. On the other hand, at a certain position inside the water meter constituting the signal generator (5), the contact bolt 36 is provided with an insulation treatment and a leakage preventing treatment at the outer portion.

The contact bolt 36 is divided into an insulated outer portion and an inner conductor portion composed of a conductive material, and a bearing ring 37 is installed at the end contacting the rotating guide 19 to make a considerable contact with the rotating guide 19. In the process, no wear phenomenon occurred.

In the above example, when the water supply pressure is high, there may be a problem that the switching rod 25 is not restored due to a phenomenon in which high water pressure is pushed to the outside, so that it may be generally applied in a place where the head pressure is not high. Here is an example that can be used when used in high pressure locations.

When water passes through the water meter, the propeller 10 inside the water meter installed to measure the volume of the water rotates, and the rotational force is gradually slowed down via the reduction gear 17. The rotation guide 19 having its axis 20 centered inside the water meter rotates with the rotation of the propeller 10 and comes into contact with the contact bolt 36. 13) or to the control panel 15. At this time, one line of the circuit is already drawn out of the water meter in the earth state, and a separate line is connected to the contact bolt 36. Of course, even in this case, the structure may be simplified by installing the rotation guide 19 outside the water meter and forming a contact point.

The amount of chemical injected per unit time of the metering pump 14 is already determined and installed at this time, and the amount of water supplied when the contact of the water meter is attached once is also in the determined state, and the amount of water supplied when the contact of the water meter is attached once is also determined. Will be. Therefore, it is determined how much dosing injection pump 14 should be operated to inject the medicine for the water supply when the contact point of the water meter is attached once, which can be solved using the operation timer 39 and the like. will be. In addition, for more precise adjustment, it may be possible to increase the number of contact points per unit volume by increasing the rotation speed of the rotation guide 19 or installing the rotation guide 19 symmetrically.

The basic configuration of the water tank chemical injection pump operating device using a water meter constituting the signal generator 5 according to another embodiment of the present invention is the same as the above-described embodiment. However, in the present embodiment, when the valley water is used when the injection chemical is a liquid chlorine, when the chemical tank 50 is placed on the upper portion of the water tank 60, the chemical tank 50 at the bottom of the chemical injection hose 16 Install the chemical injection hose (16) into the water tank (60). A small solenoid valve 51 is installed at the position where the chemical tank 50 and the chemical injection hose 16 are connected, and the solenoid valve 51 is opened and closed momentarily by receiving a signal from the signal generating water meter, thereby reducing power consumption. Chemical supply to the water tank 60 can be made only by the head pressure of the liquid chlorine. In this way, even a small storage battery or a solar cell can be supplied with a conventional medicine. At this time, by using a separate water meter propeller (10) to operate a small generator and by using the power source to operate the solenoid valve 51 can be obtained the same effect.

In addition, when the valley water is used, a large amount of water that may flow into the water tank 60 is introduced into the water tank 60, and the water supply pipe before flowing into the water tank before the water meter in order to prevent consumption of unnecessary disinfecting chemicals ( 7) form a tee pipe 62, raise the pipe in the upward direction of the water supply pipe (7), raise the head pressure to secure the head pressure that the water meter can rotate, and then lower it again by treating the u-band (61). Join the drain pipe to allow discharge. In this case, when the valley water introduced into the primary water tank 60 becomes full in the water tank 60, the ball top valve 63 is closed so that no more water is introduced into the water tank 60, but the water supply pipe 7 is inside. When the pressure of the water rises and the pressure rises to the height of the u-band (61) is naturally discharged to the outside and no more rotation of the water meter is generated and the disinfectant is also not wasted.

In addition, in the case of the solid chlorine input device, the input interval takes several days or weeks to calculate the cumulative contact number of the water meter and signal the input device so that the input device can be forced to input solid chlorine at the appropriate input time. By doing so, the proper residual chlorine concentration was always maintained in the water tank (60).

In addition, in the case of the ozone sterilization apparatus will be able to increase the efficiency of sterilization by adjusting the ozone input time.

In addition, the control panel 15 automatically shuts off the circuit of the metering pump 14 and the cardiac pump 1 when the chemicals in the chemical tank 50 are exhausted, so that the water that is not disinfected is not disinfected. It is not supplied as

The fixed quantity injection pump 14 connects the connection wire 53 connected to the ball top to the chemical tank 50 to the limit switch 54 so that the circuit can be cut off due to the weight of the ball top in the state of buoyancy when the chemical is exhausted. Thus, it was possible to configure a circuit capable of stopping the operation of the cardiac pump 1 and the metered dose injection pump 14. Here, when the circuit is cut off, the signal can be sent to the warning light so that the exhaustion of the medicine can be checked from the outside, and the control panel 15 can be used to send a text message or a predetermined signal to the manager using a wireless telephone. It can also be configured.

In particular, the control panel is equipped with arithmetic control device, timer, relay, magnet switch, etc., and it can also be configured to display the timer adjustment knob and the quantity of water supply pipe per unit time on the LCD screen.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

And it is to be understood that the invention is not limited to the specific forms referred to in the above description, but rather includes all modifications, equivalents and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood that.

As described above, the water tank chemical injection pump operation device using a water meter system comprising a signal generator according to the present invention,

According to the exact amount of water supplied to the water tank by injecting liquid chlorine through the metered injection pump to maintain a constant residual chlorine concentration at all times will have the effect of enabling hygienic water supply.

In addition, even when applied to a solid chlorine injector it is possible to accurately measure the amount of water supply to the solid chlorine at the appropriate time to maintain a constant residual chlorine concentration will have the effect of enabling hygienic water supply.

In addition, even if there is a high water pressure inside the water supply pipe or water meter it will be effective to form a contact point without the leakage phenomenon to control the metering injection pump.

In particular, there is an effect that can utilize a water meter to simply examine the amount of water passed.

In addition, it is possible to calculate the amount of water supply using a water meter, so that a large volume of disinfectant can be injected by adjusting the rotation speed and the number of operation of the metering pump through the control panel even under a large amount of water supply. have.

Claims (11)

delete Accurately measure the amount of water supplied to the water tank using a water meter, and use the measured data to start and stop the chlorine injection volume by adjusting the operating time of the chlorine chemical metering pump. In the water tank chemical dosing pump operating device using a water meter comprising a signal generator to maintain a hygienic water supply, A signaling water meter constituting the signal generator; Sensor unit for detecting the generated signal; A control panel for calculating and controlling a signal input through the sensor unit to determine the operation of the metering injection pump; Including a metering injection pump for injecting disinfecting chemicals into the water supply pipe by the control panel; Signal generation water meter constituting the signal generator, Light of the light emitting diode which installed the rotation guide with reflector on the shaft which reduced the rotation speed of the propeller rotating when water passes by the reduction gear and installed at a certain position of the water meter which constituted the signal generator. The reflector is reflected and the signal generating device using a water meter for supplying quantitative disinfecting chemicals, characterized in that the light is detected by the sensor unit to calculate the number of revolutions per unit time. Accurately measure the amount of water supplied to the water tank using a water meter, and use the measured data to start and stop the chlorine injection volume by adjusting the operating time of the chlorine chemical metering pump. In the water tank chemical dosing pump operating device using a water meter comprising a signal generator to maintain a hygienic water supply, A signaling water meter constituting the signal generator; Sensor unit for detecting the generated signal; A control panel for calculating and controlling a signal input through the sensor unit to determine the operation of the metering injection pump; Including a metering injection pump for injecting disinfecting chemicals into the water supply pipe by the control panel; Signal generation water meter constituting the signal generator, When the water passes, the rotating guide with resistance generator is installed on the shaft which reduced the rotation speed of the rotating propeller by the reduction gear, and it is formed while the resistor passes through the sensor part installed at a certain position of the water meter which constitutes the signal generator. A signal generator using a water meter for supplying quantitative disinfecting chemicals, characterized in that the resistance is calculated to calculate the number of revolutions per unit time. Accurately measure the amount of water supplied to the water tank using a water meter, and use the measured data to start and stop the chlorine injection volume by adjusting the operating time of the chlorine chemical metering pump. In the water tank chemical dosing pump operating device using a water meter comprising a signal generator to maintain a hygienic water supply, A signaling water meter constituting the signal generator; Sensor unit for detecting the generated signal; A control panel for calculating and controlling a signal input through the sensor unit to determine the operation of the metering injection pump; Including a metering injection pump for injecting disinfecting chemicals into the water supply pipe by the control panel; Signal generation water meter constituting the signal generator, By attaching a permanent magnet to the rotating guide using a permanent magnet, the permanent magnet detects a signal formed while passing through a sensor unit installed at a predetermined position of a water meter that constitutes a signal generator, and calculates the number of revolutions per unit time. Signal generator using water meter for quantitative disinfectant supply. Accurately measure the amount of water supplied to the water tank by using a water meter, and use the measurement data to start and stop the chlorine injection volume by adjusting the operating time of the chlorine chemical metering pump. In the water tank chemical dosing pump operating device using a water meter comprising a signal generator to maintain a hygienic water supply, A signaling water meter constituting the signal generator; Sensor unit for detecting the generated signal; A control panel for calculating and controlling a signal input through the sensor unit to determine the operation of the metering injection pump; Including a metering injection pump for injecting disinfecting chemicals into the water supply pipe by the control panel; Signal generation water meter constituting the signal generator, When the water passes through, the rotational speed of the propeller, which is rotated by the reduction gear, is provided with a wide rotation guide, and the components are made of conductive materials so that electrical signals can be transmitted well. On the other hand, a signal generator using a water meter for supplying quantitative disinfecting chemicals, characterized in that a contact bolt is provided with an insulation treatment and a leak-proof treatment on the outer portion at a predetermined position inside the water meter system that constitutes the signal generator. Accurately measure the amount of water supplied to the water tank using a water meter, and use the measured data to start and stop the chlorine injection volume by adjusting the operating time of the chlorine chemical metering pump. In the water tank chemical dosing pump operating device using a water meter comprising a signal generator to maintain a hygienic water supply, A signaling water meter constituting the signal generator; Sensor unit for detecting the generated signal; A control panel for calculating and controlling a signal input through the sensor unit to determine the operation of the metering injection pump; Including a metering injection pump for injecting disinfecting chemicals into the water supply pipe by the control panel; Signal generation water meter constituting the signal generator, The internal fixed position point includes a hole penetrated to the outside of the water meter case, and the O-ring is inserted into the hole and a switching rod with a return spring is inserted therein, and the outside of the water meter case is covered so that the switching rod is not exposed to the outside. Signal generating device using a water meter for supplying quantitative disinfectant, characterized in that the limit switch is installed in the state to form a contact. Accurately measure the amount of water supplied to the water tank using a water meter, and use the measured data to start and stop the chlorine injection volume by adjusting the operating time of the chlorine chemical metering pump. In the water tank chemical dosing pump operating device using a water meter comprising a signal generator to maintain a hygienic water supply, A signaling water meter constituting the signal generator; Sensor unit for detecting the generated signal; A control panel for calculating and controlling a signal input through the sensor unit to determine the operation of the metering injection pump; Including a metering injection pump for injecting disinfecting chemicals into the water supply pipe by the control panel; Signal generation water meter constituting the signal generator, Assemble the rotating guide plate to separate and shield the inside and outside of the water meter system while drawing only the rotating guide shaft to rotate the rotating guide, but leak the water through the rotating guide shaft by inserting an O-ring on the rotating guide shaft. To prevent it from happening Rotation guide shaft is fixed by inserting a rotation guide, and the signal generator using a water meter for supplying quantitative disinfecting chemicals, characterized in that the limit switch is fixed to the outside of the water meter so that the contact is made while the rotation guide is rotated. The method according to any one of claims 2 to 7, When the chemical tank is exhausted, the control panel automatically shuts off the circuit of the metering pump and the heart pump to stop the operation so that unsterilized water is not supplied as drinking water. The fixed quantity injection pump connects the connection wire connected with the ball top to the chemical tank to the limit switch so that the circuit can be cut off due to the weight of the pagoda in the absence of buoyancy when the chemical is exhausted. Signal generator using a water meter for supplying a quantitative disinfectant drug, characterized in that the circuit configured to stop. The method according to any one of claims 2 to 7, Put the chemical injection tank on the top of the water tank, install the chemical injection hose at the bottom of the chemical injection tank, and install a small solenoid valve at the position where the chemical injection tank and the chemical injection hose are connected. The signal generator using a water meter for supplying a quantitative disinfectant drug, characterized in that the instantaneous opening and closing to enable the supply of chemicals to the water tank with only a small head of liquid chlorine with a small power consumption. The method according to claim 9, Supply a quantitative disinfectant drug by using a water meter propeller to operate a small generator and use the power to operate the solenoid valve installed between the chemical injection tank and the chemical injection hose. Signal generator using a water meter for. The method according to any one of claims 2 to 7, Before flowing into the water tank before the water meter, make a tee pipe in the water supply pipe, raise the pipe upward and raise the water pressure to secure the head pressure so that the water meter can rotate. Signal generating device using a water meter for supplying quantitative disinfecting chemicals, characterized in that to be discharged by joining the pipe.

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