KR20110005443A - An apparatus injecting chlorine for digest of watersupply system and cistern - Google Patents

Abstract

PURPOSE: An apparatus for injecting chlorine to a digest of water supply system and a cistern is provided to continuously inject chlorine for long time by preventing clogging on the exhaust passage. CONSTITUTION: An apparatus for injecting chlorine comprises: a housing(110) installed at a heat insulator is an inner wall for management door(112) is included in one side it is installed in a water tub; a casing in which a second filtering net covering a cationic resin in which a lime component created in the disinfectant melting is adsorbed and preventing leakage is successively included in the inside; a main body(120) in which vent is included in one side and the other side of the respective lid preparing; a supply tube(140) supplying water to the melting chamber; and a exhaust line(150) discharging water to the inside tank if the water with chlorine exceeds a predetermined level.

Description

An apparatus injecting chlorine for digest of watersupply system and cistern}

The present invention relates to a disinfectant injector of water and water tank, and more particularly, it is possible to continuously add disinfectant without clogging even if used for a long time, greatly improving disinfection efficiency and smells due to excessive concentration of disinfectant. The problem can be prevented, and since it is installed outside the water supply and the water tank, the maintenance also relates to the water supply and disinfectant dispensing device of the water tank.

In general, the water supply or water tanks of small water supply facilities are exposed to various germs, so they are disinfected to kill them. This disinfection treatment uses a chlorine-based chlorine disinfectant, and disinfection treatment for a general water supply or water supply tank usually uses a solid chlor kalky disinfectant.

On the other hand, the village water supply facility in rural and rural areas' simple water supply chlor kalky several times without any standards. In such cases, excessive input has often caused discomfort to users supplied to the water intake or rather harmed the human body.

In addition, when this solid Chlor Kalky is added as it is, the lime contained in it is supplied as a water source, which is another danger to health.

For this reason, in recent years, a chlorine injection device for dissolving Chlor Kalky in a liquid phase and automatically supplied by a predetermined amount has been proposed and used, and Korean Patent Registration No. 0624397 and Patent Registration No. 0578857 are examples.

They are located in the tank and are used to put a certain amount of disinfectant into the tank.However, when used for a long time, the chlor kalky containing lime components are not completely filtered out, so the outlet is easily blocked and the disinfection process cannot be performed. Since it occurred frequently and installed inside the water tank, when repairing or replacing a disinfectant, a problem of maintenance such as an administrator removing the disinfectant and replacing and reinstalling the disinfectant also occurred.

The present invention has been made to solve the above problems, it is possible to continuously add the disinfectant without clogging phenomenon even after long use to greatly improve the disinfection efficiency and to prevent problems such as odor due to excessive concentration of the disinfectant Can be installed on the outside of the water supply and the water tank to maintain and also to provide easy disinfectant dispensing device of the water supply and water tank.

In order to achieve the above object, the present invention, in the disinfectant input device for disinfection treatment for water supply or water tank, is installed on the upper side of the water supply or water tank, the management door is provided on one side, the heat insulating material on the inner wall An installed housing; It is installed in the housing, having a dissolving chamber open to the upper side of the first filtration network to store and surround the solid disinfectant and the second to surround the cationic resin to prevent the outflow by adsorbing lime components generated during dissolution of the disinfectant A main body consisting of a casing provided with a sequential filter net and a lid coupled to the casing and sealed at one side and the other, respectively, having inlets and outlets communicating with the dissolution chamber; A supply pipe connected to an inlet of the lid through one side wall of the housing to supply water to the dissolution chamber to dissolve the solid disinfectant stored in the dissolution chamber; And a discharge pipe connected to the outlet of the lid through the other side wall of the housing and discharging the disinfectant into the water supply or the water tank when the water in which the disinfectant is dissolved is above an appropriate level.

Preferably, the supply pipe is characterized in that the raw water supply pipe for supplying raw water to the tap water or water tank or pumped in the water stored in the tap water or water tank to supply to the melting chamber.

Preferably the supply pipe is characterized in that the control valve is further provided to control the amount of disinfectant discharged to the discharge pipe by adjusting the amount of water supplied to the dissolution chamber.

In addition, a disinfectant injector for disinfection treatment for water supply or water tank, which is installed on the upper side of the water supply or water tank, the management door is provided on one side, the inner wall is provided with a housing; A main body including a casing installed in the housing and having a dissolving chamber open upward, and a lid coupled to the casing and sealed at one side and the other side, the inlet and the outlet communicating with the dissolving chamber respectively; The upper and lower penetrated tubular shape provided in the longitudinal direction inside the melting chamber, the inner middle portion is provided with a first filtration network for storing and wrapping a solid disinfectant, the upper and lower sides adsorbed lime components generated during dissolution of the disinfectant to leak out An inner cylinder formed of a lid having a second filtration network surrounding the cationic resin to prevent the seal, and a lid formed to be separated from the upper and lower portions of the reservoir, respectively, and communicating holes communicating with the dissolution chamber; A supply pipe connected to an inlet of the lid through one side wall of the housing and supplying water to the dissolution chamber to dissolve the solid disinfectant stored in the inner cylinder provided in the dissolution chamber; And a discharge pipe connected to the outlet of the lid through the other side wall of the housing and discharging the disinfectant into a water supply or a water tank when the water in which the disinfectant is dissolved is above an appropriate level.

Preferably, the supply pipe is characterized in that the raw water supply pipe for supplying raw water to the tap water or water tank or pumped in the water stored in the tap water or water tank to supply to the melting chamber.

Preferably the supply pipe is characterized in that the control valve is further provided to control the amount of disinfectant discharged to the discharge pipe by adjusting the amount of water supplied to the dissolution chamber.

According to the present invention, since the second filtration network equipped with the cationic resin adsorbs the lime component generated during the dissolution of the solid disinfectant, it is possible to prevent the clogging of the discharge path provided at the upper side and to continuously disinfect the disinfectant for a long time. In addition, since the chlorine is sufficiently diluted with water and at the same time the disinfectant is added only during the operation of supplying raw water, there is an advantage of preventing excessive concentration.

In addition, since it is installed outside the tank, even beginners can easily maintain the effect.

Hereinafter, with reference to the accompanying drawings will be described in more detail the apparatus for disinfecting water and water of the present invention.

Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the ordinary or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

1 is a schematic perspective view showing a disinfectant dispensing device of the water supply and the tank according to a preferred embodiment of the present invention, Figure 2 is a cross-sectional view taken along line A-A of Figure 1 according to a preferred embodiment of the present invention.

1 and 2, the water supply and disinfectant dispensing device 100 of the water tank of the present invention is largely configured to include a housing 110, the main body 120, the supply pipe 140 and the discharge pipe 150.

First, the housing 110 is installed above the water supply or the water tank, and a management door 112 is provided at one side thereof, and as shown in FIG. 2, the inner wall has a heat insulating material for insulating the inside during cold weather ( 114) is installed. And, there is a leg 116 is provided on the lower surface of the housing 110, the leg 116 is preferably used to adjust the height so that the housing 110 is horizontal even on the irregular bottom surface.

Next, the main body 120 is installed in the housing 110, and the inside of the lime filter generated when dissolving the first filtration net 123a and the disinfectant 123b to store and surround the solid disinfectant 123b from the lower side. A second filtration network 124a for storing and wrapping a cation resin 124b for adsorbing the ions is sequentially coupled to the casing 121 and the casing 121, and the inlet 126 and the outlet 127 are provided at one side and the other side. Is configured to include each provided a lid 125, the configuration of the main body 120 will be described in detail below.

On the other hand, the solid disinfectant (123b) is to use chlor kalky which is widely used in the prior art, chlor kalky is divided into approximately 30% lime (calcium hydroxide) and 70% chlorine when dissolved.

Since the cationic resin 124b is in the form of granules and has a property of adsorbing calcium as is widely known, the cationic resin 124b is subjected to a filtration treatment such as adsorbing a lime component generated when the disinfectant 123b is dissolved.

Next, the supply pipe 140 is casing 121 so that one side thereof is connected to the inlet 126 of the lid 125 through one side wall of the housing 110 to dissolve the solid disinfectant 123b. It serves as a pipe to supply water to the inside, and is provided with an intermittent valve 142 on one side to adjust the flow rate. This will be described below, but is connected to the raw water supply pipe for supplying the raw water to the tap water or the water tank, or the water stored in the tap water or the water tank is supplied, which will be described later.

Finally, the discharge pipe 150 is connected to the outlet 127 of the lid 125 through the other side wall of the housing 110, when the disinfectant disinfectant (123b) is dissolved above the appropriate water level or water tank It serves as a pipe to discharge to the inside, this will also be described below, but the end of the discharge pipe 150 is installed extending into the water supply or the water tank.

Now, the configuration and operation relationship of the main body 120 outlined above will be described.

"A" of Figure 3 is an exploded perspective view of the main body according to an embodiment of the present invention, "I" is a coupling longitudinal cross-sectional view showing the operating relationship of the main body according to an embodiment of the present invention.

Referring to the drawings, as described above, the main body 120 includes a casing 121 and a lid 125 that seals an upper portion thereof, wherein the casing 121 has a dissolution chamber opened upwards therein. (122) is formed, the first filtration network 123a surrounding the solid disinfectant (123b) and the second filtration network (124a) surrounding the cationic resin (124b) in the dissolution chamber (122) is inserted in sequence from the bottom to the top It is.

And, the lid 125 is screwed to the upper portion of the casing 121 is provided to seal the open top, the inlet 126 and the outlet 127 is formed on one side and the other side, respectively, The inlet 126 communicates with the dissolution chamber 122 of the casing 121 through the inlet passage 128 formed in the lid itself, and the outlet 127 through the outlet passage 129 formed in the lid 125 itself. It can be seen that the respective communication with the melting chamber 122.

On the other hand, the inflow path 128 and the discharge path 129 is not located on the same horizontal line, it can be seen that the discharge path 129 is formed in a lower position than the inflow path 128. This is implemented to be easily discharged through the discharge path 129 when the water introduced into the inflow path 128 is stored at a suitable level in the melting chamber 122.

Now, based on the above configuration will be described through the "I" operating relationship of the main body 120. That is, when water is introduced through the inlet 126 formed at one side of the lid 125, the water is stored in the dissolution chamber 122 of the casing 121 through the inflow path 128. Of course, it should be noted that the inlet 126 is connected to the above-described supply pipe 140 to introduce the water supplied therefrom.

Subsequently, the water introduced into the dissolution chamber 122 will gradually increase in water level after a predetermined time, and in this process, the solid chlor kalky, that is, the disinfectant 123b provided in the dissolution chamber 122 is It will begin to dissolve slowly. The lime component generated when dissolved will rise with the gradually increasing water level and will be mostly adsorbed to the cationic resin 124b located thereon, and the rest will be immersed in the bottom surface by its own weight. In addition, the chlorine is diluted in water gradually increasing its water level and eventually discharged to the outside along the discharge path 129 and the discharge port 127 of the lid 125.

At this time, since the position of the discharge path 129 is located at a lower position than the inflow path 128, when the water level of the water stored in the melting chamber 122 reaches an appropriate level, it is naturally discharged to the outside.

Now, it will be described the entire operation relationship with reference to the use state of the disinfectant injector 100 of the present invention configured and operated as described above.

Figure 4 is a schematic longitudinal cross-sectional view showing a state of use of the disinfectant dispensing apparatus of the water supply and the tank according to an embodiment of the present invention.

Referring to the drawings, it can be seen that the disinfectant injector 100 of the present invention is installed on the upper side of the water tank 160, the normal water tank 160 is a pump 161 for pumping raw water (ground water), The pump 161 is configured to include a raw water inlet pipe 162 for transferring the pumped raw water to the water tank 160, the discharge transport pipe 164 for discharging the raw water stored in the water tank 160, the raw water inlet pipe ( 162 and the discharge transfer pipe 164 is provided with a valve 166 that can adjust the flow rate, respectively.

The supply pipe 140 of the disinfectant injector 100 of the present invention installed on the upper side of the water tank 160 is connected to the raw water inlet pipe 162 and receives water to the dissolution chamber 122 of the main body 120. It is installed to supply, the discharge pipe 150 is its end is extended through the upper surface of the water tank 160 inward. Of course, as described above, the supply pipe 140 is connected to the inlet 126 and the outlet pipe 150 of the lid 125 and the outlet 127, respectively.

On the other hand, the supply pipe 140 is connected to the raw water inlet pipe 162 is most preferably to supply the water is supplied, but when the raw water inlet pipe 162 is buried underground inevitably shown as broken lines The water pump 170 is used to pump and supply the water stored in the water tank 160.

In this state, when the pump 161 provided on one side of the water tank 160 starts the pumping operation, the pumped raw water will be transferred into the water tank 160 through the raw water inlet pipe 162 and stored. At this time, when the valve 166 provided in the raw water inlet pipe 162 is not completely opened, a part of the raw water is naturally introduced into the supply pipe 140 connected to the raw water inlet pipe 162 by the pressure of the pumped inlet. It will be supplied to the dissolution chamber 122 of the casing 121 through 126.

In this way, when water flows into the dissolution chamber 122, the solid disinfectant 123b provided in the first filtration network 123a will gradually dissolve as described above, and the lime component is the second filtration network provided at the upper portion thereof. It will be adsorbed by the cationic resin 124b provided at 124a or immersed in the bottom surface, and chlorine is diluted in water and then through the outlet 129 and the outlet 127 of the lid 125 by the water level. Being discharged is supplied into the water tank 160 through the discharge pipe 150 to be able to disinfect the raw water.

As a result, the lime component dissolved in the disinfectant 123b is adsorbed to the cationic resin 124b of the second filtration network 124a provided at the upper side when the lime component is floated with the rising water level, and the rest is precipitated on the bottom surface. Clogging of the discharge path 129 and the discharge port 127 formed in the 125 will not occur. Therefore, the disinfectant can be continuously added for a long time.

In addition, the chlorine dissolved in the disinfectant (123b) is sufficiently diluted with the introduced water is discharged, as well as the raw water is stored at an appropriate level in the water tank 160, when the operation of the pump 161 is stopped, the raw water supply pipe 162 and Since the water is not supplied to the supply pipe 140 connected thereto, the level of the dissolution chamber 122 of the casing 121 will soon be lowered, and the discharge pipe 150 no longer discharges the disinfectant 123b, thereby causing excessive concentration. It can be prevented. That is, the disinfectant 123b is automatically discharged and disinfected only when new raw water is supplied to the water tank 160, thereby preventing excessive concentration of the disinfectant 123b.

On the other hand, since the supply pipe 140 is provided with an intermittent valve 142, it is possible to adjust the flow rate supplied to the dissolution chamber 122, if the excessive concentration of the disinfectant in spite of sufficient dilution of chlorine, the intermittent valve 142 By further closing the amount of water supplied can be artificially reduced the amount of disinfectant (123b).

Here, when the water supply pipe 140 is connected to a separate submersible pump 170 without directly connecting the raw water inlet pipe 162 to directly pump water in the water tank 160, the submersible pump 170 and the water tank 160 are used. The pump 161 provided on one side is electrically connected to interlock with each other to stop the operation of the pump 170 to prevent excessive concentration.

Subsequently, in the case of replacing the disinfectant 123b after long time use, the door 112 of the housing 110, not shown, is opened, and the lid 125 is rotated by rotating the casing 121 screwed with the lid 125. After separation) and the first filtration network (123a) stored in the dissolution chamber 122 to collect a new disinfectant (123b) can be easily replaced. At this time, since the lid 125 is connected to the inlet 126 and the outlet 127 provided on both sides thereof, respectively, to the supply pipe 140 and the discharge pipe 150, the main body is rotated and separated from the lid. If the lid 125 is not firmly fixed, the lid 125 may be directly fixed to the housing 110 by providing a reinforcing material.

In addition, as described above, when the adsorption capacity of the cationic resin 124b is lowered, the second filtration network 124a may be collected and replaced with a new cationic resin 124b, so that even a beginner may easily maintain it.

In the above, a preferred embodiment of the present invention has been described. Hereinafter, another embodiment in which the lime removal ability is further improved will be described.

Figure 5 is a schematic longitudinal cross-sectional view showing a disinfectant dispensing device of water and tank according to another embodiment of the present invention, "A" of Figure 6 is a schematic perspective view showing the inner cylinder according to another embodiment of the present invention, "I" is a longitudinal sectional view of the inner cylinder.

Before describing with reference to the drawings, it should be appreciated that the same reference numerals are used for the same components as those of the preferred embodiment of the present invention among the components according to another embodiment of the present invention.

First, referring to FIG. 5, the disinfectant dispensing device 100 ′ of the water supply and the tank according to another embodiment of the present invention is largely a housing 110, a main body 120, an inner cylinder 130, and a supply pipe 140. And a discharge pipe 150.

The housing 110 is installed above the water supply or the water tank, and a management door 112 (not shown here) is provided at one side thereof, and has the same configuration as the above-described preferred embodiment of the present invention. .

Next, the main body 120 is installed in the housing 110, and is coupled to an upper side of the casing 121 and the casing 121 and the casing 121 in which the dissolution chamber 122 is opened. The inlet 126 and the outlet 127 are each configured to include a lid 125, which is also the same as the above-described preferred embodiment of the present invention will be described briefly.

On the other hand, the biggest difference between the other embodiment is the presence of the inner cylinder (130). That is, the first filter net 123a in which the solid disinfectant 123b is stored and the second filter net 124a in which the cationic resin 124b is stored are provided in the inner cylinder 130, and the inner cylinder 130 itself is stored in the casing ( And the second filtration network 124a above and below the first filtration network 123a, respectively, to insert the second filtration network 124a into upper and lower sides of the dissolution chamber 122. It is a further improvement.

Such, the inner cylinder 130 is provided in the longitudinal direction inside the dissolution chamber 122 of the casing 121, as shown in "a" and "b" of FIG. The inner middle portion is provided with a first filtration network 123a for storing and wrapping the solid disinfectant 123b, and the upper and lower sides have a cationic resin 124b for adsorbing the lime component generated when dissolving the disinfectant 123b to prevent external leakage. Covers 134a each of which is separately coupled to the upper and lower portions of the reservoir 132 and the upper and lower portions of the reservoir 132a, each of which surrounds the second filtration network 124a, and has a communication hole 135 communicating with the dissolution chamber 122, respectively. 134b, and a lowered protrusion 136 is formed at the edge of the lower cover 134b, but an incision 137 is formed intermittently in the protrusion 136 so that water flows smoothly.

Next, the supply pipe 140 is connected to the inlet 126 of the lid 125 through one side wall of the housing 110 to dissolve the solid disinfectant 123b. Disinfectant discharging disinfectant (123b) is connected to the outlet 127 of the lid 125 through the other side wall of the housing 110, the discharge pipe 150 to supply water to the) If the appropriate level is higher than that serves as a pipe for discharging it into the tap water or the water tank, this is also the same configuration as the preferred embodiment of the present invention described above.

Now, it will be described with respect to the operating relationship of the inner cylinder 130 having the largest difference with the preferred embodiment of the present invention.

Figure 7 is a schematic longitudinal cross-sectional view showing the operating relationship between the main body and the inner cylinder according to an embodiment of the present invention.

Referring to the drawings, when water is introduced through the inlet 126 formed on one side of the lid 125 of the main body 120, the water is stored in the dissolution chamber 122 of the casing 121 through the inlet passage 128. do. Of course, it should be noted that the inlet 126 is connected to the above-described supply pipe 140 to introduce the water supplied therefrom.

Subsequently, the water introduced into the dissolution chamber 122 will gradually increase in water level after a predetermined time, and in this process, the cutout 137 formed in the lower cover 134b of the inner cylinder 130 provided therein. Water is also introduced into the reservoir 132 through the communication hole 135 and the water level rises together. Then, the solid chlor kalky, that is, the disinfectant 123b provided inside the reservoir 132 will gradually begin to dissolve. Lime components generated when dissolved will rise with the gradually increasing water level and will be adsorbed to most of the cationic resin 124b located at the upper part, and the rest is immersed to the bottom surface by its own weight and the cationic resin 124b located at the lower part thereof. ) Will be adsorbed. In addition, the chlorine is diluted in water gradually increasing its water level and eventually discharged to the outside along the discharge path 129 and the discharge port 127 of the lid 125.

That is, the second filtration net 124a enclosing the cationic resin 124b for adsorbing the lime component on the upper and lower sides of the first filtration net 123a enclosing the disinfectant 123b, respectively, to adsorb all the lime components that float or precipitate. This greatly improves the ability to remove lime.

Now, the use state of the disinfectant injector 100 'according to another embodiment of the present invention configured as described above will be described, which is the disinfectant injector 100 of the preferred embodiment of the present invention described above. The same usage and operation will briefly explain.

8 is a schematic longitudinal cross-sectional view showing a state of use of the disinfectant dispensing apparatus of the water supply and the tank according to another embodiment of the present invention.

Referring to the drawings, it can be seen that the disinfectant dispensing apparatus 100 ′ according to another embodiment of the present invention is installed above the water tank 160. The supply pipe 140 of the disinfectant injector 100 'installed on the upper side of the water tank 160 is connected to the raw water inlet pipe 162, the discharge pipe 150 is its end inward through the upper surface of the water tank 160 Is extended.

On the other hand, the supply pipe 140 is most preferably connected to the raw water inlet pipe 162 to receive and supply the water, but when the raw water inlet pipe 162 is buried underground inevitable as shown by the broken line The pump 170 is used to pump and supply the water stored in the water tank 160.

In this state, when the pump 161 provided on one side of the water tank 160 starts the pumping operation, the pumped raw water will be transferred into the water tank 160 through the raw water inlet pipe 162 and stored therein. When the valve 166 provided in the water inlet pipe 162 is not completely opened, a part of the raw water naturally flows into the supply pipe 140 connected to the raw water inlet pipe 162 due to the pressure of the pumped inlet 126. It will be supplied to the melting chamber 122 of the casing 121 through.

Thus, when water flows into the dissolution chamber 122 of the main body 120, water also flows into the storage container 132 through the communication hole 135 formed in the lower cover 134b of the inner cylinder 130 as described above. As the water level rises gradually. Then, the solid disinfectant 123b provided in the first filtration network 123a will be gradually dissolved, and the lime component is adsorbed by the cationic resin 124b provided in the second filtration network 124a provided thereon. It will be treated or adsorbed by the cationic resin 124b provided in the other second filtration network 124a located at the bottom while being treated or immersed in the bottom surface. Of course, the chlorine is diluted through the water is discharged through the outlet 127 of the lid by the water level is supplied into the water tank 160 through the discharge pipe 150 to be able to disinfect the raw water.

As a result, the second filtration net 124a having the cationic resin 124b is provided on the upper and lower sides of the first filtration net 123a provided with the disinfectant 123b, so that the lime component which floats or precipitates is more completely adsorbed. will be.

On the other hand, since the features for preventing excessive concentration or maintenance are the same as the preferred embodiment of the present invention described above, a separate description will be omitted here.

The foregoing has outlined rather broadly the features and technical advantages of the present invention in order to better understand the claims of the invention which will be described later. Additional features and advantages that constitute the claims of the present invention will be described in detail below. It should be appreciated by those skilled in the art that the disclosed concepts and specific embodiments of the invention can be used immediately as a basis for designing or modifying other structures to accomplish the invention and similar purposes.

In addition, such modifications or altered equivalent structures by those skilled in the art as a basis for modifying or designing the structures and embodiments of the invention disclosed in the present invention to other structures for carrying out the same purposes of the present invention are patents Various changes, substitutions and changes may be made without departing from the spirit or scope of the invention as set forth in the claims.

1 is a schematic perspective view showing a disinfectant injector of water and water tank according to an embodiment of the present invention.

2 is a cross-sectional view taken along the line A-A of Figure 1 in accordance with a preferred embodiment of the present invention.

"A" of Figure 3 is an exploded perspective view of the main body according to an embodiment of the present invention, "I" is a coupling longitudinal cross-sectional view showing the operating relationship of the main body according to an embodiment of the present invention.

Figure 4 is a schematic longitudinal cross-sectional view showing the state of use of the disinfectant dispensing apparatus of water and tank according to an embodiment of the present invention.

Figure 5 is a schematic longitudinal cross-sectional view showing a disinfectant dispensing apparatus of water and tank according to another embodiment of the present invention.

"A" in Figure 6 is a schematic perspective view showing an inner cylinder according to another embodiment of the present invention, "I" is a longitudinal cross-sectional view of the inner cylinder.

Figure 7 is a schematic longitudinal cross-sectional view showing the operating relationship between the main body and the inner cylinder according to an embodiment of the present invention.

Figure 8 is a schematic longitudinal cross-sectional view showing a state of use of the disinfectant dispensing apparatus of the water supply and the tank according to another embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100,100 ': disinfectant injector 110: housing

112: door 114: thermal insulation

116: leg 120: body

121 casing 122 melting chamber

123a: first filtration network 123b: disinfectant

124a: second filtration network 124b: cationic resin

125: lid 126: inlet

127: outlet 128: inlet

129: discharge path 130: inner tube

132: reservoir 134a, 134b: cover

135: communication hole 136: protruding jaw

137: incision 140: supply pipe

142: intermittent valve 150: discharge pipe

160: water tank 161: pump

162: raw water inlet pipe 164: discharge transport pipe

166: valve 170: submersible pump

Claims (6)

In the disinfectant input device for disinfection treatment of water supply or tank, A housing installed at an upper side of the water supply or the water tank, and having a management door at one side thereof, and a heat insulating material installed at an inner wall thereof; It is installed in the housing, having a dissolving chamber open to the upper side therein, the first filtration network to store and surround the solid disinfectant and the second to surround the cationic resin to prevent the outflow by adsorbing lime components generated during disinfectant dissolution A main body consisting of a casing provided with a sequential filtering net and a lid coupled to the casing and sealed at one side and the other side, respectively, having inlets and outlets communicating with the dissolution chamber; A supply pipe connected to an inlet of the lid through one side wall of the housing to supply water to the dissolution chamber to dissolve the solid disinfectant stored in the dissolution chamber; And The disinfectant injector of the water supply and the tank is connected to the outlet of the lid through the other side wall of the housing and comprises a discharge pipe for discharging the disinfectant dissolved water into a water supply or the water tank when the water is above an appropriate level. The method of claim 1, The supply pipe is a raw water supply pipe for supplying raw water to the tap water or water tank disinfectant input device for water supply and water tank characterized in that the pumped inflow of water stored in the tap water or water tank to supply to the dissolution chamber. 3. The method according to claim 1 or 2, The supply pipe is a disinfectant injector and water tank, characterized in that the control valve is further provided to control the amount of disinfectant discharged to the discharge pipe by adjusting the amount of water supplied to the dissolution chamber. In the disinfectant input device for disinfection treatment of water supply or tank, A housing installed at an upper side of the water supply or the water tank, and having a management door at one side thereof, and a heat insulating material installed at an inner wall thereof; A main body including a casing installed in the housing and having a dissolving chamber open upward, and a lid coupled to the casing and sealed at one side and the other side, the inlet and the outlet communicating with the dissolving chamber respectively; The upper and lower penetrated tubular shape provided in the longitudinal direction inside the melting chamber, the inner middle portion is provided with a first filtration network for storing and wrapping a solid disinfectant, the upper and lower sides adsorbed lime components generated during dissolution of the disinfectant to leak out An inner cylinder formed of a lid having a second filtration network surrounding the cationic resin to prevent the seal, and a lid formed to be separated from the upper and lower portions of the reservoir, respectively, and communicating holes communicating with the dissolution chamber; A supply pipe connected to an inlet of the lid through one side wall of the housing and supplying water to the dissolution chamber to dissolve the solid disinfectant stored in the inner cylinder provided in the dissolution chamber; And The disinfectant injector of the water supply and the tank is connected to the outlet of the lid through the other side wall of the housing and comprises a discharge pipe for discharging the disinfectant dissolved water into a water supply or the water tank when the water is above an appropriate level. The method of claim 4, wherein The supply pipe is a raw water supply pipe for supplying raw water to the tap water or water tank disinfectant input device for water supply and water tank characterized in that the pumped inflow of water stored in the tap water or water tank to supply to the dissolution chamber. The method according to claim 4 or 5, The supply pipe is a disinfectant injector and water tank, characterized in that the control valve is further provided to control the amount of disinfectant discharged to the discharge pipe by adjusting the amount of water supplied to the dissolution chamber.

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