KR200455069Y1 - Water tank with hybrid ventilation - Google Patents

Abstract

The present invention provides a water tank having a hybrid ventilator for preventing corrosion of a portion exposed to chlorine gas inside the water tank. The water tank having such a hybrid ventilation device includes a wall 20, a water supply pipe 30, an exhaust pipe 40, a generator 36, and a fan 48 that form an internal space 21 in which water is accommodated. Is done. At this time, the generator 36 is installed in the water supply pipe 30, and generates electric power by water flowing into the internal space 21 through the water supply pipe 30. Then, the fan 48 is installed in the exhaust pipe 40, and is connected to the generator 36 and operated by receiving power from the generator 36, thereby forcibly exhausting the air in the internal space 21 to the outside. This water tank generates electric power from the (small) generator 36 installed in the water supply pipe 30 when water is supplied to drive the fan 48 installed in the exhaust pipe 40 to provide air in the internal space 21. Is forced to exhaust to the outside, and when the power is not generated natural exhaust by the gap wind is made, thereby minimizing the cost of installation and maintenance can effectively prevent corrosion of the inner surface of the wall due to chlorine gas. In particular, since it uses its own power generated through water supply without using an external power source, it is possible to minimize the consumption of energy and enable eco-friendly operation to reduce the emission of carbon dioxide, which is a problem recently. do.

Description

WATERTANK WITH HYBRID VENTILATION APPARATUS

The present invention relates to a water tank having a hybrid ventilator, and more specifically, to prevent corrosion of a portion exposed to the chlorine gas in the water tank, the chlorine gas to the outside without using a separate external power source The present invention relates to a water tank having a hybrid ventilation device for forced exhaust and effective natural exhaust.

In general, water tanks installed in large buildings such as apartments and buildings have a large capacity, and thus, when the tanks are prefabricated (SMC or STC water tanks) by applying a plate such as stainless steel panel, the general form is used. It is usually constructed in the form of a hexahedron according to the fabrication convenience and the structure of a building.

At this time, the water generally accommodated in the water tank is tap water, and when a large amount of tap water is accommodated for a long time, chlorine gas (Cl ₂ gas) is released from the tap water due to the chlorine used for disinfection treatment. For this reason, the stainless plate mainly used in the water tank has a problem of aging due to corrosion.

1 is a view for explaining the problem of the general water tank.

Referring to FIG. 1, in general, the water tank 100 forms a wall 110 by using a plurality of panels, thereby forming a space 101 for accommodating water therein. At this time, since the water in the internal space 101 of the water tank 100 accommodates a constant capacity, the water level is maintained at a constant value (H). Therefore, the inner surface 112 of the wall, which is located above the water level (S) that is not filled with water, is continuously exposed to chlorine gas to cause corrosion.

In order to improve the problems of corrosion occurring on the inner surface of the upper wall of the water tank, Korean Utility Model Publication No. 20-0413948, "Stainless Panel Water Tank with Device to Prevent Corrosion by Chlorine Gas," By installing a circulating pump in the tank and attaching a spray nozzle to the inlet entering the water tank to inject water onto the top of the stainless panel, it prevents chlorine gas from condensation on the stainless panel and lengthens the pipe at the outlet. It is expected that water will circulate through the entire suction inside the water tank and prevent the shooter.

Then, the present inventors form a cover to have a channel that is penetrated from one side to the other through the registration utility model registration No. 20-0442597 "cover of the water tank", and install the cover so that the channel is protruded outward Therefore, a technique has been proposed to allow the gas generated from the water contained in the water tank to be effectively discharged to the outside without remaining in the water tank.

However, such a prior art has a problem in that the management cost is high, and a specially designed panel is to be used. For example, in the above-described prior art, the technology of a stainless panel water tank having a device for preventing corrosion by chlorine gas has to continuously spray water through a circulation pump, so that the inner surface of the wall is exposed to chlorine gas. There is a problem in that there is a limit, and the technique of the cover of another water tank is a burden to apply a specially made cover unlike the other panels forming the wall of the water tank.

Accordingly, the present invention has been proposed to solve such problems of the prior art, and has a new type of hybrid ventilation device that can effectively prevent corrosion of the inner surface of the wall due to chlorine gas while minimizing installation and maintenance costs. The purpose is to provide a tank.

In particular, the present invention is to prevent the chlorine gas from remaining in the inner space of the water tank by exhausting the air in the inner space of the water tank, to prevent corrosion of the inner surface of the water tank, the power generation by the water supply when water is supplied to the water tank The fan is driven so that the air in the water tank is forced out to the outside, and when the water tank stops supplying water, the natural air is effectively exhausted, thereby minimizing the consumption of energy and enabling eco-friendly operation. It is an object to provide a water tank having a hybrid ventilator.

According to a feature of the subject innovation for achieving the above object, the subject innovation comprises a wall (20) forming an inner space 21 in which water is accommodated; A water supply pipe 30 installed to extend from the outside to the internal space 21 of the wall 20 to supply water to the internal space 21 from the outside; An exhaust pipe (40) extending outward from the interior space (21) of the wall (20) to allow air in the interior space (21) to flow outside; A generator (36) installed in the water supply pipe (30) and generating electric power by water flowing into the internal space (21) through the water supply pipe (30); A fan 48 installed in the exhaust pipe 40 and connected to the generator 36 and operated by receiving electric power from the generator 36 to force the air in the internal space 21 to be exhausted to the outside. It includes.

The water tank having a hybrid ventilation device according to the present invention is installed so that the end in the inner space 21 corresponds to the maximum height of the water filled in the inner space 21 is extended to the outside to the inner space 21 Further comprising an overflow pipe 90 to allow the water to drain out when the water level in the interior exceeds the maximum; The exhaust pipe 40 may be installed such that the end 42 in the internal space 21 has the same height as the inner end of the overflow pipe 90.

Such a water tank having a hybrid ventilator according to the present invention is installed between the generator 36 and the fan 48, and is charged by the electric power generated from the generator 36 to be supplied to the fan 48. The battery 100 may be further provided.

According to the water tank having a hybrid ventilator according to the present invention, the fan is installed in the exhaust pipe 40 by generating electric power from the (small) generator 36 installed in the water supply pipe 30 when water is supplied to the water tank ( 48) by driving the air in the interior space (21) to the outside forced, when the power is not generated natural exhaust by the gap wind is made, so the wall caused by chlorine gas while minimizing the installation and maintenance costs It can effectively prevent the corrosion of the inner surface. In particular, since it uses its own power generated through water supply without using an external power source, it is possible to minimize the consumption of energy and enable eco-friendly operation to reduce the emission of carbon dioxide, which is a problem recently. do.

2 is a view for explaining a water tank having a hybrid ventilation device according to the technical idea of the present invention.

Referring to FIG. 2, the water tank 10 having the hybrid ventilation device according to the present invention generates electric power from the (small) generator 36 installed in the water supply pipe 30 when water is supplied to the water tank, and thus the exhaust pipe ( By driving the fan 48 installed in the 40) to allow the air in the interior space 21 to be forced to the outside, when the power is not generated natural exhaust by the gap wind is made, so installation and maintenance costs It is characterized in that to effectively prevent corrosion of the inner surface of the wall due to chlorine gas.

More specifically, the water tank 10 having a hybrid ventilator according to the present invention has a wall 20, a water supply pipe 30, an exhaust pipe 40, and a generator that form an internal space 21 in which water is accommodated. (36) and fan (48), to prevent the corrosion of the portion exposed to the chlorine gas in the water tank to forcibly exhaust the chlorine gas to the outside without using a separate external power supply, effectively natural exhaust Be sure to

At this time, the water supply pipe 30 is installed to extend from the outside to the internal space 21 of the wall 20 so that water is supplied to the internal space 21 from the outside. The exhaust pipe 40 extends outward from the internal space 21 of the wall 20 to allow air in the internal space 21 to flow to the outside. The generator 36 is installed in the water supply pipe 30 and generates electric power by water flowing into the internal space 21 through the water supply pipe 30. Then, the fan 48 is installed in the exhaust pipe 40, and is connected to the generator 36 and operated by receiving power from the generator 36, thereby forcibly exhausting the air in the internal space 21 to the outside.

As such, the generator 36 used in the present invention may have a size corresponding to the diameter of the water supply pipe 30. For example, such a generator 36 may be formed in a compact shape such that a plurality of blades are disposed in the feed pipe 30, and the generator body is attached to the feed pipe 30 through a rotating shaft. Then, the plurality of blades will be generated by the rotation of the water flow into the inner space 21. Of course, such a generator 36 may be selectively used according to the needs of designers and users from among a variety of products provided in the power field.

In addition, the fan 48 will be selectively applied to a product having a suitable power consumption according to the capacity of the generator 36.

As described above, the water tank 10 having the hybrid ventilation device according to the present invention basically drives the fan 48 by using power generated by the generator 36 when water is supplied, and drives the fan 48. By allowing the air in the internal space 21 to be forcibly exhausted, it is possible to prevent the chlorine gas from remaining in the water tank inner space while preventing additional operating costs, thereby preventing corrosion of the inner surface of the water tank wall.

In addition, the water tank 10 having a hybrid ventilation device according to the present invention is to effectively effect the natural exhaust when the water supply of the water tank is stopped. Of course, such natural exhaust is generally formed in the communication structure of the exhaust pipe 40 to be made by the gap wind caused by the difference in the density of the wind and air.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings, Figure 3, and the same reference numerals are denoted for the components that perform the same function in Figures 2 and 3. On the other hand, in the drawings, the illustration of the conventional techniques disclosed in the background of the present invention, the electrical and electronic connection and control methods used to realize the present invention, such as those commonly known by those skilled in the art are omitted In this case, the parts related to the present invention are illustrated. In particular, there are parts where the size ratio between the elements is somewhat different or the sizes between the components coupled to each other are different, but the difference in representation of the drawings is easily understood by those skilled in the art. A separate description is omitted.

3 is a view for explaining a water tank having a hybrid ventilation device according to an embodiment of the present invention.

Referring to FIG. 3, the water tank 10 having the hybrid ventilation device according to the preferred embodiment of the present invention includes a wall 20, a water supply pipe 30, and a generator 36 forming an internal space 21 in which water is accommodated. ), An exhaust pipe 40, a fan 48, a control unit 60, a ball top 70, a water level sensor 80, an overflow pipe 90, and a battery 100. In order to prevent corrosion of the part exposed to the gas is forced to exhaust the chlorine gas to the outside without using a separate external power source, and effectively natural exhaust.

At this time, the water supply pipe 30 is installed to extend from the outside to the internal space 21 of the wall 20 so that water is supplied to the internal space 21 from the outside. The water supply pipe 30 is provided with various valves, strainers, etc. for controlling the flow path on the water supply pipe 30 in addition to the main valve 34 automatically controlled by the control unit 60. Although not shown, bypass piping and the like are additionally installed.

The exhaust pipe 40 extends outward from the internal space 21 of the wall 20 to allow air in the internal space 21 to flow to the outside. In the present embodiment, the exhaust pipe 40 is formed such that the end 42 in the internal space 21 and the external end 44 communicate with each other, and the end 42 in the internal space 21 is the overflow pipe 90. Since it is installed to have the same height as the inner end of the, it is possible to keep the height as low as possible in the inner space 21 to effectively exhaust the chlorine gas to the outside while preventing water from flowing into the pipe at the maximum level. In addition, a cover 46 is installed at the outer end 44 to prevent the inflow of rainwater and the like effectively.

On the other hand, the generator 36 is installed in the water supply pipe 30 and generates electric power by water flowing into the internal space 21 through the water supply pipe 30. Then, the fan 48 is installed in the exhaust pipe 40, and is connected to the generator 36 and operated by receiving power from the generator 36, thereby forcibly exhausting the air in the internal space 21 to the outside. In particular, the present embodiment is installed from the generator 36 by installing a battery 100 to be charged by the power generated from the generator 36 between the generator 36 and the fan 48 to be supplied to the fan 48. It is possible to increase the driving time of the fan 48 by allowing the generated power of to be charged. That is, the generator 36 is to increase the driving time of the fan 48 by applying a product having a capacity capable of producing power larger than the drive capacity of the fan 48.

In addition, in the water tank 10 having a hybrid ventilator according to the present embodiment, the overflow pipe 90 is installed so that the end of the inner space 21 corresponds to the maximum height of the water filled in the inner space 21. When the water level in the interior space 21 exceeds the maximum so that the water is drained to the outside.

In addition, in the present embodiment, the controller 60 controls the level of the internal space 21. The control unit 60 can basically adjust the water level by detecting the water level by the ball top 70, but by installing a separate water level sensor 80 to enable more stable water level control. At this time, the water level sensor 80 detects the water level value through the height of the water filled in the internal space 21 and transmits it to the control unit 60, the detection sensor 82 for high water level alarm, the detection sensor for water supply stop ( 84), the detection sensor 86 for starting the water supply and the detection sensor 88 for the low water level alarm, etc. are installed to enable more precise water level control than the balltop 70.

As described above, the water tank having a hybrid ventilator according to a preferred embodiment of the present invention is shown according to the above description and drawings, but this is merely described, for example, within the scope not departing from the technical spirit of the present invention. It will be understood by those skilled in the art that various changes and modifications are possible.

1 is a view for explaining the problems of the prior art;

2 is a view for explaining a water tank having a hybrid ventilation device according to the technical idea of the present invention;

3 is a view for explaining a water tank having a hybrid ventilation device according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: water tank (with hybrid ventilation)

20 wall 21 interior space

30: water supply pipe 36: generator

40: exhaust pipe 42: end (inside the exhaust pipe)

48: fan 90: overflow pipe

100: battery

Claims (3)

A wall 20 constituting the inner space 21 in which water is received; A water supply pipe 30 installed to extend from the outside to the internal space 21 of the wall 20 to supply water to the internal space 21 from the outside; An exhaust pipe (40) extending outward from the interior space (21) of the wall (20) to allow air in the interior space (21) to flow outside; A generator (36) installed in the water supply pipe (30) and generating electric power by water flowing into the internal space (21) through the water supply pipe (30); A fan 48 installed in the exhaust pipe 40 and connected to the generator 36 and operated by receiving electric power from the generator 36 to force the air in the internal space 21 to be exhausted to the outside. Water tank having a hybrid ventilation device comprising a. The method of claim 1, An end of the inner space 21 is installed to correspond to the maximum height of the water filled in the inner space 21 and extends outward so that the water is drained to the outside when the water level in the inner space 21 exceeds the maximum value. Further comprising an overflow pipe 90; The exhaust pipe (40) is a water tank having a hybrid ventilation, characterized in that the end (42) in the inner space (21) is installed to have the same height as the inner end of the overflow pipe (90). The method according to claim 1 or 2, And a battery (100) installed between the generator (36) and the fan (48), the battery (100) being charged by the electric power generated from the generator (36) and supplied to the fan (48). Water tank with ventilation.

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