KR102299773B1 - Simple water supply system combining detachable type power generation module - Google Patents

Abstract

According to the present invention, in the simple water supply system for purifying water such as groundwater or valley water supplied to the water tank 10 and supplying it as tap water, the Using the rotational force of the water chamber 110 to which water is supplied, the chlorine input water wheel 120 which is disposed inside the water chamber 110 and rotates by the falling water while being supplied, and the chlorine input water wheel 120 an automatic chlorine injector 100 including a chlorine injection pump 130 for quantitatively injecting chlorine supplied from the chlorine storage tank 30 into the water tank 10; And water is injected from the water supply pipe 40 through the upper part, the lower part is opened up and down and the generator chamber 210 provided with the power generation module side fastening part 211 detachably mounted to the chlorine injector side fastening part 111. and the generator aberration 220 which is disposed inside the generator chamber 210 and rotates by the falling water while being injected, and the electric energy generated by generating electric energy using the rotational force of the generator aberration 220 A simple water supply system comprising a; a removable power generation module 200 including a power generation unit 230 for supplying power to the water level regulator 300 side is disclosed.

Description

A simple water supply system that combines a removable power generation module {SIMPLE WATER SUPPLY SYSTEM COMBINING DETACHABLE TYPE POWER GENERATION MODULE}

The present invention relates to a simple water supply system combined with a removable power generation module, and more particularly, it purifies water such as underground water or valley water supplied to a water tank and supplies it as tap water. It relates to a simple water supply system in which a removable power generation module capable of providing driving power to a water level regulator is combined.

In a water tank that is located in remote areas where tap water is not generally supplied and that stores water such as groundwater or valley water, a chlorine input device is installed to inject chlorine to purify the stored water, and the amount of water flowing into the water tank It was possible to periodically supply the set amount of chlorine according to the

In addition, a water level sensor is disposed inside the water tank to detect the amount of water flowing in, and a water level controller connected to the water level sensor is disposed outside to transmit the detection signal of the water level sensor to the water intake pump control panel located at a distance. The control panel could drive and control the water intake pump according to the water level in the water tank. However, since the water level sensor or water level regulator operates only when driving power is supplied, commercial power is required, which limits the installation location of the water tank. In addition, it was possible to supply driving power to the water level controller with solar power produced by the solar cell itself, but there was a problem that the water level controller could not be driven when the amount of solar power generation was small.

In order to solve this problem, in recent years, it is possible to supply driving power to the water level sensor and water level controller by installing a generator that rotates the water wheel and generates power by rotating the water wheel falling into the water tank. Since each lamp had to be installed in the water tank, the structure of the simple water supply system for purifying water and supplying it as tap water was large and complex, which made installation difficult and the installation cost increased. In addition, since chlorine input devices or generators are dispersedly arranged inside the water tank, a worker enters the water tank during maintenance to work in a cramped space, thereby reducing work efficiency and increasing labor costs.

Registered Patent Publication No. 10-1926661 (2108.12.03), Residual chlorine maintenance and chlorine input amount control device according to temperature change.

The present invention was created to solve the above-described problems, and an object of the present invention is to provide a removable power generation module according to the installation environment because the removable power generation module for generating the driving power of the water level regulator is detachably coupled to the automatic chlorine injector or the water level regulator. It is to provide a simple water supply system combined with a removable power generation module that can be removed or combined with an automatic chlorine injector and water level controller, so that it is easy to install and maintain and can significantly reduce system construction costs.

The simple water supply system according to the present invention for achieving the above object is a simple water supply system for purifying water such as groundwater or valley water supplied to the water tank 10 and supplying it as a drinking water, opening up and down at the upper part The water chamber 110 to which water is supplied through the fastening part 111 on the chlorine injector side, and the chlorine input water wheel 120 which is disposed inside the water chamber 110 and rotates by the falling water while being supplied; An automatic chlorine injector 100 including a chlorine input pump 130 for quantitatively injecting chlorine supplied from the chlorine storage tank 30 into the water tank 10 by using the rotational force of the chlorine input water wheel 120; And water is injected from the water supply pipe 40 through the upper part, the lower part is opened up and down and the generator chamber 210 provided with the power generation module side fastening part 211 detachably mounted to the chlorine injector side fastening part 111. and the generator aberration 220 which is disposed inside the generator chamber 210 and rotates by the falling water while being injected, and the electric energy generated by generating electric energy using the rotational force of the generator aberration 220 It includes a power generation unit 230 for supplying power to the water level regulator 300 side.

Here, the water chamber 110 is formed in a downwardly concave shape at the lower position of the chlorine injector-side fastening part 111, and a temporary storage tank 112 for temporarily storing the water injected through the generator chamber 210 is provided. , a horizontal portion 114 is formed on one upper end of the temporary storage tank 112 to guide the water overflowing the temporary storage tank 112 in the horizontal direction to flow into the water outlet 113 disposed on the other side. , the chlorine input water wheel 120 is disposed at a lower position of the horizontal part 114, and an inlet 115 opened up and down is formed in the horizontal part 114 to rotate the chlorine input water wheel 120 water can be supplied.

In addition, the automatic chlorine injector 100 may further include a foreign material removal cartridge 140 disposed at the bottom of the temporary storage tank 112 to filter and remove foreign materials contained in the temporarily stored water.

In addition, the automatic chlorine injector 100 is arranged upright from the horizontal part 114 at a predetermined height and further includes a foreign material filter wall 150 for filtering foreign substances contained in the water, and the foreign material removal cartridge 140 is provided with a foreign material permeable net 141 horizontally arranged at a predetermined height from the bottom of the temporary storage tank 112, so that the foreign material that has passed through the foreign material permeable net 141 is deposited on the bottom to remove the foreign material contained in the water. can

In addition, in the foreign material removal cartridge 140, the inner space is divided into an upper space and a lower space by a horizontally arranged foreign material permeation network 141, and the upper space is a screen wall 144 of a water-permeable material arranged upright. is divided into a plurality of purification spaces 143a to 143d by The water of the storage tank 112 flows into the inside and the water introduced through the other purification space 143d is discharged, and the purification member is accommodated in each purification space 143a to 143d, and foreign substances are removed as the inflow water passes. Filtered, the foreign material permeable network 141 is made of a porous structure, and the filtered foreign material passes through each purification member and can be deposited into the lower space.

In addition, in the two outermost purification spaces 143a and 143d, water flowing in by the bulkhead 145 disposed upright in the temporary storage tank 112 and water discharged to the horizontal part 114 can be separated.

In addition, the outermost two purification spaces 143a and 143d among the plurality of purification spaces 143a to 143d have a screen plate 146 made of a water-permeable material disposed on the opened upper part so that the purification member accommodated therein is not separated. can be

In addition, in the plurality of purification spaces (143a to 143d), the purification members having smaller particles are gradually accommodated in the direction in which the water passes, and the purification member of charcoal component is selectively accommodated in any one of the purification spaces (143a). can be

In addition, the generator chamber 210 is made of a tubular body extending up and down, and water is supplied to the upper part, and a plurality of the generator aberration wheel 220 is arranged in a direction in which water falls from the inside of the generator chamber 210 . have.

In addition, in the generator aberration 220 , two generator aberrations 220 are disposed opposite to each other in a direction perpendicular to the direction in which water falls within the generator chamber 210 , and the rotary blades of the two generator aberrations 220 . are arranged to mesh with each other so that the two generator aberrations 220 can rotate together.

On the other hand, the water chamber 110 is formed in a downward concave shape at a lower position and a temporary storage tank 112 for temporarily storing the water supplied to the inside is provided, and at the upper end side of the temporary storage tank 112, in the horizontal direction. A first horizontal portion 116 that is extended and guides water overflowing the temporary storage tank 112 to flow in the other direction is formed, and at a lower position of the first horizontal portion 116, the removable power generation module 200 ) is disposed, the generator aberration 220 is rotated by the water falling while flowing into the other side by the first horizontal part 116, and the lower position of the generator aberration 220 is curved downward. A bending plate 117 for guiding the water passing through the generator aberration 220 to fall in the lower direction of the temporary storage tank 112 is disposed, and the bending plate 117 extends in the horizontal direction at the lower position of the bending plate 117 to extend the bending plate ( A second horizontal part 118 is formed to guide the water falling from 117 to flow in the other direction, and the chlorine input water wheel 120 is disposed at a lower position of the second horizontal part 118, and the second The horizontal portion 118 is formed with an inlet 115 opened up and down to supply water for rotating the chlorine input water wheel 120 .

According to the simple water supply system combining the removable power generation module according to the present invention,

First, the automatic chlorine injector 100 for quantitatively injecting chlorine into the water tank 10 is provided with a chlorine injector-side fastening part 111 that is opened up and down in the water chamber 110, and uses water flowing therein. The detachable power generation module 200 for generating electrical energy is provided with a power generation module side coupling part 211 meshed with the chlorine injector side coupling part 111 and detachably coupled to the lower part, so that the water level regulator 300 with commercial power. ), the removable power generation module 200 is not coupled to the automatic chlorine injector 100 under the drivable conditions, and in the condition that the supply of commercial power is limited, the removable power generation module 200 is installed with the automatic chlorine injector 100 or a water level controller ( 300), as it is possible to supply the electric energy generated by the water level regulator 300 to the water level regulator 300, it is possible to selectively mount the removable power generation module 200 according to the installation environment to facilitate installation and maintenance and greatly reduce the system construction cost. can

In addition, since the main components for quantitatively injecting chlorine and generating electrical energy, such as the automatic chlorine injector 100 or the removable power generation module 200, are formed integrally with each other, the process for installation in the water tank is easy and In case of breakdown or maintenance, it can be separated from the water tank and maintenance work can be performed from the outside, thereby improving work efficiency and reducing labor costs.

1 is a schematic diagram showing a state in which a simple water supply system is installed in a water tank according to a preferred embodiment of the present invention;
2 is a perspective view showing the external configuration of a simple water supply system according to a preferred embodiment of the present invention;
3 is a side cross-sectional view showing the internal configuration of a simple water supply system according to a preferred embodiment of the present invention;
4 is a side cross-sectional view showing a configuration in which a removable power generation module according to a preferred embodiment of the present invention is detachable from an automatic chlorine injector;
5 is a side cross-sectional view showing the configuration of a foreign material removal cartridge according to a preferred embodiment of the present invention;
6 is a side cross-sectional view showing another configuration of a removable power generation module according to a preferred embodiment of the present invention;
7 is a front sectional view showing the configuration of an automatic chlorine injector according to a preferred embodiment of the present invention;
8 is a schematic diagram showing another configuration of a simplified water supply system according to a preferred embodiment of the present invention;
9 and 10 are perspective and side cross-sectional views showing the detailed configuration of a simple water supply system according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. Prior to this, the terms or words used in the present specification and claims should not be construed as being limited to their ordinary or dictionary meanings, and the inventor should properly understand the concept of the term in order to best describe his invention. Based on the principle that can be defined, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

Therefore, the configuration shown in the embodiments and drawings described in the present specification is only the most preferred embodiment of the present invention and does not represent all of the technical spirit of the present invention, so at the time of the present application, various It should be understood that there may be equivalents and variations.

A simple water supply system incorporating a removable power generation module according to a preferred embodiment of the present invention is installed in the water tank 10 as shown in FIG. 1 and purifies water such as groundwater or valley water supplied to the water tank 10 . As a system for supplying water to the water, as shown in FIGS. 2 and 3 , it includes an automatic chlorine injector 100 and a removable power generation module 200 .

First, the automatic chlorine injector 100 is a means for injecting chlorine necessary for purifying water according to the amount of water supplied to the water tank 10 in an appropriate amount. 3), a water chamber 110 to which water is supplied, a chlorine input water wheel 120 that is disposed inside the water chamber 110 and rotates by falling water while being supplied, and the chlorine input water wheel ( 120) includes a chlorine injection pump 130 for quantitatively injecting chlorine supplied from the chlorine storage tank 30 into the inside of the water tank 10 by using the rotational force of 120).

As shown in FIG. 7, the chlorine injection pump 130 is disposed outside the water chamber 110 and is condensed on the rotation shaft of the chlorine injection water turbine 120 and rotates together with an impeller 133 provided with an impeller ( 133), the chlorine supplied from the chlorine transfer pipe 31 is sucked by the suction force generated inside by the rotation, and a predetermined amount can be separated and discharged through the chlorine discharge pipe 132. A roller rotating in the chlorine injection pump 130 is disposed instead of the impeller 133, and a chlorine tube (not shown) connected to the chlorine transfer pipe 31 and the chlorine discharge pipe 132, respectively, is wrapped around the roller. A chlorine input pump of various chlorine input methods used in the technical field to which the present invention pertains can be used, such as discharging chlorine inside the chlorine tube by a certain amount to the chlorine discharge pipe 132 by the pressurization of the .

Here, the water chamber 110 is formed in a downwardly concave shape at the lower position of the chlorine injector-side fastening part 111, and a temporary storage tank 112 for temporarily storing the water injected through the generator chamber 210 is provided. can In addition, a horizontal portion 114 is formed on one side of the upper end of the temporary storage tank 112 to guide the water overflowing the temporary storage tank 112 in the horizontal direction to flow into the water outlet 113 disposed on the other side. can be

In addition, the chlorine input water wheel 120 is disposed at the lower position of the horizontal part 114 and the inlet 115 opened up and down is formed in the horizontal part 114 to rotate the chlorine input water wheel 120 . By supplying water for the purpose, it is possible to supply the required amount of chlorine quantitatively while simplifying the chlorine supply structure.

And, on one side of the water tank 10, a chlorine storage tank 30 in which a certain amount of chlorine solution necessary for purifying water is stored, and the chlorine storage tank 30 is an automatic chlorine injector 100 and a chlorine transfer pipe 31. is connected to supply chlorine according to the suction pressure of the automatic chlorine injector (100).

The detachable power generation module 200 is a means for supplying driving power required to operate the water level regulator 300 and the water level sensor 310, and from the water supply pipe 40 through the upper part as shown in FIGS. 3 and 4 . Water is injected and the generator chamber 210 is provided with a power generation module side fastening part 211 that is opened up and down at the bottom and is detachably mounted on the chlorine injector side fastening part 111, and the inside of the generator chamber 210 The generator aberration 220 rotates by water falling while being injected and the generator aberration 220 generates electric energy using the rotational force of the generator aberration 220, and the generated electric energy is supplied to the water level controller 300 side. part 230 .

Here, the power generation unit 230 is disposed outside the generator chamber 210 and is condensed on the rotation shaft of the generator aberration 220 to receive rotational force, and forms a magnetic field between the rotor and the stator as in a conventional power generation method using rotational force. while generating electrical energy. The electric energy generated by the power generation unit 230 may be directly supplied to the water level regulator 300, and as shown in FIG. 1, a battery circuit module 240 that supplies a certain amount of power and converts the power into a static power source It may be supplied to the water level controller 300 through the

In addition, as shown in FIG. 6 , the generator chamber 210 is made of a tubular body extending up and down and water is supplied to the upper part, and the generator aberration 220 is a direction in which water falls from the inside of the generator chamber 210 . As a plurality of devices are arranged consecutively, the amount of power generation can be significantly increased with the same amount of water supplied.

In addition, the two generator aberrations 220 are disposed opposite to each other in a direction perpendicular to the direction in which water falls within the generator chamber 210, and the rotor blades of the two generator aberrations 220 are disposed to mesh with each other. Since the water wheel 220 is provided to rotate together, when a foreign material is caught on one of the generator aberrations 220 and does not rotate, the foreign material can be separated by forcibly rotating with the rotational force of the other generator aberration 220. It is possible to prevent power generation stoppage.

And, as shown in FIG. 1, on the water supply pipe 40 connected to the water intake pump and transported, the water is disposed in the water supply pipe 40 in a power generation method similar to that of the detachable power generation module 200, and the transport pressure of the transported water. A generator aberration rotated by the generator and a second power generation module 250 including a power generation unit that generates electric energy using the rotational force of the generator aberration and supplies the generated electric energy to the water level regulator 300 side. have.

In addition, although the embodiment illustrates that the removable power generation module 200 is disposed in the upper position of the automatic chlorine injector 100, in addition, water from the lower position of the automatic chlorine injector 100, that is, the automatic chlorine injector 100 Electric energy can also be generated by rotating the generator aberration wheel 220 by water falling into the water tank 10 as it is disposed at the discharge position.

In addition, the detachable power generation module 200 is limited to the automatic chlorine injector 100 and selectively detachably mounted within the simple water supply system according to the preferred embodiment of the present invention, including the water level controller 300 . If it is installed at a position where the drop, discharge pressure (flow velocity), and flow rate of the supplied water can be used in combination, the driving power required for the water level regulator 300 can be generated.

In addition, the above-described chlorine injector-side fastening part 111 and the power generation module-side fastening part 211 are interlocked and coupled to each other while removably fastening the automatic chlorine injector 100 and the removable power generation module 200. Although each fastening part 111 and 211 is shown as a protruding structure, one fastening part protrudes and the other fastening part has a recessed groove shape, and may be coupled to a male and female fastening structure in which fitting is performed. In order to maintain a solid fastening state, a female thread and a male thread may be respectively formed around the periphery, and in addition to these screw coupling methods, in the technical field to which the present invention pertains, such as bracket coupling or interference fitting, various methods for detachably mounting the two members Of course, the fastening method may be applied.

As described above, in the automatic chlorine injector 100 for quantitatively injecting chlorine into the water tank 10, the chlorine injector-side fastening part 111 opened up and down in the water chamber 110 is disposed, and the water flowing into the The removable power generation module 200 for generating electrical energy using In the condition that 300 can be driven, the removable power generation module 200 is not coupled to the automatic chlorine injector 100, and in the condition that the supply of commercial power is limited, the removable power generation module 200 is installed in the automatic chlorine injector 100 or the water level. As the electric energy generated by being coupled to the regulator 300 can be supplied to the water level regulator 300, the removable power generation module 200 is selectively mounted according to the installation environment to facilitate installation and maintenance, and greatly reduce the system construction cost. can save

Meanwhile, as shown in FIG. 3 , a foreign material removal cartridge 140 for filtering and removing foreign substances contained in the temporarily stored water may be disposed at the bottom of the temporary storage tank 112 .

In addition, as shown in the drawing, a foreign material filtering wall 150 is provided to filter foreign substances contained in the water by being placed upright from the horizontal part 114 at a certain height, and the foreign material removal cartridge 140 is a temporary storage tank 112 . A foreign material penetrating network 141 horizontally arranged at a certain height from the bottom of the have.

In addition, when a certain amount of foreign matter is deposited, the administrator separates and cleans the foreign material removal cartridge 140 from the water chamber 110 or replaces and installs a new foreign material removal cartridge 140 so that the newly introduced water is not contaminated by the deposited foreign material. make sure not to

5 is another configuration of the foreign matter removal cartridge 140 is disclosed. Referring to the drawings, the foreign material removal cartridge 140 has an internal space divided into an upper space and a lower space by a horizontally arranged foreign material permeation network 141, and the upper space is a screen wall 144 of a water-permeable material arranged upright. ) and divided into a plurality of purification spaces 143a to 143d, and the two outermost purification spaces 143a and 143d among the plurality of purification spaces 143a to 143d have an upper part opened to form one purification space 143a. The water of the temporary storage tank 112 flows into the inside, and the water is discharged toward the horizontal part 114 through the other purification space 143d. In each of the purification spaces 143a to 143d, the purification member is accommodated, and foreign substances are filtered as the inflow water passes through. Normally, while flowing into the purification space 143a → the lower space → the purification space 143d, the purification space 143a, 143d) is filtered by the purifying member of the charcoal component filled in. The foreign material penetrating network 141 is made of a porous structure so that foreign substances contained in the water can be removed by being deposited into the lower space while the foreign substances filtered through each purification member pass. As described above, since foreign substances contained in the water can be filtered step by step according to the size, it is possible to minimize the phenomenon of clogging due to the accumulation of an excessive amount of foreign substances in the purification member.

Here, the two outermost purification spaces 143a and 143d are separated from the water flowing in by the bulkhead 145 arranged upright in the temporary storage tank 112 and the water discharged to the horizontal part 114 side, so that the temporary storage tank ( 112), it is possible to prevent in advance the mixing of the water flowing in and the water discharged to the outside.

In addition, the outermost two purification spaces 143a and 143d among the plurality of purification spaces 143a to 143d have a screen plate 146 made of a water-permeable material disposed on the opened upper part so that the purification member accommodated therein is not separated. Accordingly, each of the purification spaces 143a to 143d can be used as an inlet function and an outlet function of water while being used as a foreign material filtering space.

In addition, in the plurality of purification spaces (143a to 143d), the purification members with smaller particles are gradually accommodated in the direction in which the water passes, respectively, and in any one purification space (143a), the purification member of the charcoal component is selectively accommodated. As a result, it is possible to effectively remove various foreign substances with particles due to the multi-filtering effect, and it is possible to prevent the occurrence of a clogging phenomenon due to the accumulation of a large amount of foreign substances in the purification member of the first purification space 143a.

For example, the charcoal member is accommodated in the first purification space (143a), the royal gravel is accommodated in the second purification space (143b), the medium gravel is accommodated in the third purification space (143c), and the fourth purification space (143d) is Sand is acceptable.

On the other hand, as shown in FIGS. 8 to 10 , the water chamber 110 has a downward concave shape at a lower position and a temporary storage tank 112 for temporarily storing the water supplied therein is provided, and the temporary storage tank A first horizontal part 116 is formed on one side of the upper end of the 112 to guide the water overflowing the temporary storage tank 112 to flow in the other direction by extending in the horizontal direction, and the first horizontal part 116 is formed. The generator aberration 220 of the removable power generation module 200 is disposed at a lower position of the generator aberration 220 by the water falling while flowing into the other side by the first horizontal part 116 can be rotated.

In addition, a bending plate 117 is disposed at a lower position of the generator aberration 220 to guide the water that has passed through the generator aberration 220 to fall in the lower direction of the temporary storage tank 112, curved downward, and the bending plate A second horizontal part 118 extending in the horizontal direction and guiding the water falling from the bending plate 117 to flow in the other direction is formed at the lower position of the 117, the lower portion of the second horizontal part 118 The chlorine input water wheel 120 is disposed at the position, and the inlet 115 opened up and down is formed in the second horizontal part 118 to supply water for rotating the chlorine input water wheel 120 .

As described above, since the structure of the simple water supply system can be minimized while realizing the functions of each component, miniaturization is promoted and the process of installing or separating the system to the water tank 10 can be made easier.

In addition, although not shown, by further disposing the generator aberration 220 in the empty space between the bending plate 117 and the second horizontal part 118 or in the position discharged from the water chamber 110, the amount of electrical energy generated with the same water supply amount can be maximized.

As described above, although the present invention has been described with reference to limited embodiments and drawings, the present invention is not limited thereto, and the technical spirit of the present invention and the following by those of ordinary skill in the art to which the present invention pertains. It goes without saying that various modifications and variations are possible within the scope of equivalents of the claims to be described.

10...Water tank 100...Automatic chlorine dosing machine
110... Water chamber 111... Chlorine injector side fastening part
112...temporary storage tank 114...horizontal part
115...Inlet 120...Goat water wheel
130...Chlorine injection pump 140...Debris removal cartridge
141...Foreign material penetration network 143a,b,c,d...Purification space
146...Screen plate 150...Foreign matter filter
200...Removable power generation module 210...Generator chamber
211..Power module side fastening part 220...Generator aberration
230...Generator 300...Level regulator

Claims (10)

In the simple water supply system for purifying water such as groundwater or valley water supplied to the water tank 10 and supplying it as tap water,
The water chamber 110 to which water is supplied through the fastening part 111 on the chlorine injector side opened up and down at the top, and the chlorine input water wheel which is disposed inside the water chamber 110 and rotates by the falling water while being supplied Automatic chlorine including 120 and a chlorine injection pump 130 for quantitatively injecting chlorine supplied from the chlorine storage tank 30 into the water tank 10 by using the rotational force of the chlorine input water wheel 120 . inserter 100; and
Water is injected from the water supply pipe 40 through the upper part, and the generator chamber 210 is provided with a power generation module side fastening part 211 that is opened up and down at the lower part and is detachably mounted on the chlorine injector side fastening part 111. And , the generator chamber 210, which is disposed inside the generator chamber 210 and rotates by the falling water while being injected, and the generator aberration 220 to generate electric energy using the rotational force of the generator, and the generated electric energy is adjusted to the water level. Removable power generation module 200 including a power generation unit 230 for supplying power to the regulator 300 side;
The generator chamber 210 is made of a tubular body extending up and down and water is supplied to the upper part, and a plurality of the generator aberration wheel 220 is arranged in a direction in which the water falls inside the generator chamber 210,
In the generator aberration 220, two generator aberrations 220 are disposed opposite to each other in a direction perpendicular to the direction in which water falls within the generator chamber 210, and the rotary blades of the two generator aberrations 220 are mutually A simple water supply system, characterized in that it is arranged to mesh with the two generator aberrations 220 to rotate together.
The method according to claim 1,
The water chamber 110 is formed in a downward concave shape at the lower position of the chlorine injector-side fastening part 111, and a temporary storage tank 112 for temporarily storing the water injected through the generator chamber 210 is provided,
A horizontal portion 114 is formed on one side of the upper end of the temporary storage tank 112 to guide the water overflowing the temporary storage tank 112 in the horizontal direction to flow into the water outlet 113 disposed on the other side,
The chlorine input water wheel 120 is disposed at a lower position of the horizontal part 114 , and an inlet 115 opened up and down is formed in the horizontal part 114 to rotate the chlorine input water wheel 120 . Simple water supply system, characterized in that it supplies.
3. The method according to claim 2,
The automatic chlorine injector 100,
A simple water supply system, which is disposed at the bottom of the temporary storage tank 112 and further comprises a foreign material removal cartridge 140 for filtering and removing foreign substances contained in the temporarily stored water.
4. The method according to claim 3,
The automatic chlorine injector 100 is arranged upright from the horizontal portion 114 at a certain height and further includes a foreign material filtering wall 150 for filtering foreign substances contained in the water,
The foreign material removal cartridge 140 is provided with a foreign material permeable network 141 horizontally arranged at a predetermined height from the bottom surface of the temporary storage tank 112 so that the foreign material that has passed through the foreign material permeation network 141 is deposited on the bottom of the water. Simple water supply system, characterized in that it removes foreign substances contained in the.
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