JPS6222673B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Technical Field This invention relates to a structure for preventing corrosion in a water storage tank.

Conventional technology Normally, in a water storage tank, when water is poured into the tank, the sterilizing chlorine contained in the water is liberated and gasified as the water is released, and the chlorine gas is released into the space above the water level in the tank. It is something that floats in the air. On the other hand, dew condensation occurs on the inner wall of the space inside the tank due to temperature differences between the inside and outside, and therefore the chlorine gas is easily dissolved in the water droplets. Then, due to increases in outside temperature, etc., the water droplets evaporate, and as water is repeatedly released, chlorine gas is continuously dissolved in the water droplets, resulting in a phenomenon in which the chlorine in the water droplets gradually becomes concentrated. .

For this reason, a phenomenon shown by the following reaction equation occurs on the inner wall surface of the tank.

Cl ₂ + H ₂ O → HCl + HClO 2 HClO → HCl + O ₂ Therefore, conventional tanks are corroded by hydrochloric acid and oxidation, and even stainless steel tanks do not deviate from this corrosion. Particularly in recent years, as the quality of tap water has deteriorated, the amount of chlorine used for sterilization has increased, making the above-mentioned corrosion phenomenon even more pronounced.

OBJECTS OF THE INVENTION A first object of the present invention is to inhibit the corrosion that exists in conventional water storage tanks, and a second object of the invention is to inhibit the corrosion described above simply and at low cost. There is a particular thing.

Embodiment Hereinafter, an embodiment embodying the present invention will be described based on the drawings. The inside of the tank body 1 is divided into two parts by a partition plate 2, and a large main tank part 3 and a small sub-tank part 4 are formed.
A communication hole 5 for communicating between both the tank parts 3 and 4 is provided in the lower part of the partition plate 2. Moreover, the top plate 6 of the main tank part 3 and the sub tank part 4,
7 is provided with vents 8 and 9. moreover,
A manhole 11 having a lid 10 is formed in the top plate 7 of the sub-tank part 4, and the manhole part has a structure that prevents water from leaking by a shower described later.

A water supply pipe 12 is connected to the upper part of the sub-tank part 4, and a water supply valve 14 is provided at the tip of the pipe, which is opened and closed by the vertical movement of a float 13, so that the water level of the tank body 1 is at a predetermined position (minimum water level). When the water drops below this level, the valve 14 is opened and water discharge starts.
When the water level recovers to the set position (highest water level), the valve 14 is closed and water discharge is stopped.

A water intake pump 1 is installed at the bottom of the main tank section 3.
5 is connected thereto, and the water stored in the main tank section 3 is supplied from this water intake pipe 16 to other required locations. The tip of a branch pipe 17 branched from the delivery side of the water intake pump 15 is located in the upper part of the sub-tank section 4, and a shower head 18 is provided inside the sub-tank section 4. A stop valve 19 is built into the branch pipe 17, and this stop valve 19 is opened for a certain period of time each time the water intake pump 15 is operated for a predetermined period of time. Water is jetted upward and sideways from the shower head 18 to clean the inner surfaces of the top plate 7, the lid 10, and the peripheral wall 21 of the sub-tank section 4.

Including the position of the lowest water level and above the lowest water level position, the main and sub tank parts 3,
4, the lower surface of the lid 10, the inner circumferential surface of the vents 8 and 9, the inner circumferential surface of the manhole 11, and both sides of the partition plate 2 are coated with a water-repellent coating made of water-repellent paint made of urethane resin. 22 are provided.

Now, in the water storage tank configured as described above, chlorine gas generated as water is discharged from the water supply valve 14 floats in the upper space of the sub-tank section 4, and the chlorine gas does not flow into the main tank section 3. Not enough. The chlorine gas is dissolved in water droplets formed on the inner surface of the sub-tank section 4, but each time the water intake pump 15 is operated for a certain period of time, the stop valve 19 opens while the water intake pump 15 is operating, and the tank body 1 A portion of the stored water supplied from inside is injected from the shower head 18 through the branch pipe 17 to wash away the water droplets and the area where the water droplets were generated. Therefore, corrosion caused by chlorine in water droplets can be prevented from occurring.

Moreover, in this water storage tank, a small sub-tank section 4 is provided, and the water supply valve 14 is arranged within the sub-tank section 4, so that the generation of chlorine gas due to water discharge occurs only within the sub-tank section 4. Also, the shower device may be small enough to only clean the inside of the small sub-tank portion 4, thereby avoiding an unnecessary increase in cost. That is, if the sub-tank portion 4 is not divided, a large-sized shower device that can clean the entire interior of the tank body 1 is required.

Furthermore, in the water storage tank, a water-repellent film 22 is provided on the inner surfaces of the main and sub-tank parts 3 and 4 above the lowest water level, so the water droplets D generated on the inner wall surface are spherical, as shown by the solid line in FIG. ,
When it reaches a certain size, it will fall. Therefore,
The total amount of water droplets adhering to the inner wall surface is reduced, which can help prevent the above-mentioned corrosion.
This is particularly effective in the main tank section 3. In other words, although there is a very small amount of chlorine gas floating in the upper space of the main tank section 3, it may be a cause of corrosion. can be almost prevented. As shown in FIG. 3, cracks may occur in the film 22 for some reason, but in this case, due to the water repellency of the film 22, water droplets will not enter into the cracks, and the water droplets will not penetrate into the cracks. There is no risk of corrosion.

Furthermore, in the water storage tank of this example,
Since the shower head 18 is provided in the branch pipe 17 branched from the delivery side of the water intake pump 15, water can be jetted using the driving force of the water intake pump 15, and a special pressure water supply for water jetting can be performed. No equipment is needed.

Further, the present invention is not limited to the above embodiments, but can be embodied in the following manner.

(b) As shown in Figure 4, use a short partition plate 2 and leave the lower part of the lowest water level L part open.

(b) Branch pipe 17, water supply pipe 12, shower head 18, and water supply valve 14 in the sub-tank section 4
A water-repellent film 22 should also be provided on the outer periphery of the parts.

(c) The stop valve 19 should be configured to be opened and closed manually.

(d) Similarly, the opening and closing of the stop valve 19 should be controlled by a timer or the like.

(E) A separate pressure water supply device such as a dedicated pump shall be provided for the operation of the shower device.

(f) Operating the shower device using the water head pressure of an elevated water tank, water supply pressure, etc.

(g) A strainer 23 is provided in the communication hole 5 shown in FIG. 1 so that water from the sub-tank section 4 is filtered.

Although not directly related to this invention, it is also possible to apply this invention to other types of tanks other than water storage tanks that are likely to be corroded by corrosive gases.

Effects of the Invention As detailed above, in this invention, if the water supply valve is placed inside the sub-tank, the generation of chlorine gas due to water discharge inside the sub-tank will occur only within the sub-tank, so the shower device can also clean the inside of the small sub-tank. It is possible to avoid unnecessary increases in costs because it only requires a small size, and since a water-repellent coating is provided on the inner surface of the main and sub-tank parts, the overall amount of water droplets adhering to the inner wall surface is reduced, preventing corrosion. As a result, a small and inexpensive shower device can be used, and corrosion prevention can be achieved at low cost.

[Brief explanation of the drawing]

Fig. 1 is a sectional view of a water storage tank embodying the present invention, Fig. 2 is a sectional view showing a water repellent film, Fig. 3 is a sectional view showing cracks in the water repellent film, and Fig. 4 is another embodiment. FIG. Tank body 1, main tank part 3, sub tank part 4, water supply valve 14, water intake pump 15, water intake pipe 16, branch pipe 17, shower head 18, water repellent film 22.

Claims (1)

[Scope of Claims] 1. A water supply valve 14 is provided at the upper part, and a water intake pipe 16 is connected to the lower part.
The discharged water from the
6, at least the upper part of the tank body 1 is divided into a main tank part 3 and a sub-tank part 4 which communicates with the main tank part 3 in the stored water; Inside, the water supply valve 14
and a shower device 18 which sprays water onto the upper inner surface of the sub-tank section 4 to clean the upper inner surface thereof, and the main tank section 3 and the sub-tank section 4 have water-repellent coatings on their upper inner surfaces. A water storage tank having a cleaning device, characterized in that a water storage tank is formed with a cleaning device.