JPH1060960A - Remodeling method for water supply tank - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method of remodeling an existing accumulator type high-placed water supply tank at a low cost in a short-time work to be converted to a low-pressurization type high-placed water supply tank. SOLUTION: A bladder 4 is removed from an accumulator type high-placed water supply tank, and an air supply device 31 for intermittently supplying air to the tank main body 1 from which the bladder is removed is installed. Then, by using an exiting mouthpiece attached to the tank main body 2, the air supply device 3 is connected to the tank main body 1, and a power supply is connected to the air supply device 31. The tank main body is fitted with an exhaust valve 40 for discharging surplus air in the tank main body. A safety valve 41 which is operated at a preset pressure of 2kg/cm<2> and is adapted to lower the pressure in a pipeline to a preset pressure or less is installed in a water supply pipeline 23 from the tank main body to the water supply pipeline 23.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a high pressure storage tank installed on the roof of an apartment house or a building.
The present invention relates to a method of converting a low-pressure high-supply water tank having a size of not more than ² cm ² .

[0002]

2. Description of the Related Art An accumulator-type high water supply tank is used to increase water supply pressure with the introduction of a bath kettle with a shower into a high-rise house, and is made of rubber called a bladder housed in the tank. And pressurized water is supplied by the elasticity of the bladder and the pressure of gas (eg, nitrogen gas) sealed outside the bladder.

[0003] On the other hand, the pressurized high-supply water tank directly fills the tank with water and pressurizes the water with pressurized air introduced into the tank. Among them, the one in which the gauge pressure of the pressurized air introduced into the tank is set to ² kg / cm ² or less is referred to as a “low pressurized high water supply tank” in the present specification. The low-pressure high-place water supply tank is not subject to laws and regulations as a second-class pressure vessel, and can be installed and maintained as a general vessel.

[0004]

The accumulator type high water tank requires periodic replacement of the bladder and cleaning of the inside of the bladder, so that a large amount of maintenance cost is required, and at the same time, the maintenance work is temporarily performed every time the maintenance work is performed. Since water supply must be stopped, it is inconvenient for living. The accumulator type high water supply tank was introduced in October 1983, and the aging of the existing tank will increase the opportunities for maintenance work, and such inconveniences are expected to become even more pronounced.

[0005] For this reason, there is a strong demand for the transition from the existing pressure-accumulation type elevated water supply tank to a pressurized-type elevated water supply tank. However, the existing pressure-accumulation-type elevated water supply tank is removed and a new pressurized-type elevated water tank is removed. It is not preferable to install a water supply tank because it requires a large amount of cost and a long working period.

SUMMARY OF THE INVENTION The present invention has been made in view of such circumstances, and it is an object of the present invention to remodel an existing accumulator type high pressure water supply tank in a short period of time and at a low cost to provide a pressurized high pressure water supply. An object of the present invention is to provide a method of diverting a tank.

[0007]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, the present invention provides a step of removing a bladder from an accumulator type high-level water supply tank, and intermittently supplying air into a tank body from which the bladder has been removed. Installing the air supply device to be, and connecting the air supply device to the tank body using an existing base attached to the tank body,
Connecting a power supply to the air supply device, attaching an exhaust valve for discharging excess air to the tank main body, and setting a pressure of ² kg / cm ² or less to a water supply line from a water supply pump to the tank main body. And installing a safety valve operated by the second storage tank.
The tank was remodeled to be a low-pressure type elevated tank that is not subject to the laws and regulations as a seed pressure vessel.

[0008] The accumulator type high water supply tank becomes a pressure vessel capable of sealing pressurized water and pressurized air by removing the built-in bladder. If the water tank after removing the bladder is diverted as it is as the tank body of the pressurized elevated water tank, the removal of the existing tank and the installation of the new tank can be omitted, so the existing pressure-accumulating elevated water tank is removed, The transition to the pressurized elevated water supply tank can be performed inexpensively and in a short period of time as compared with the case where a new pressurized elevated water supply tank is installed. In addition, since existing equipment can be diverted as it is to the water supply pump, the control panel, and the piping from the water supply pump to the tank body, the transfer to the pressurized high water supply tank can be performed inexpensively and in a short period of time. be able to. In addition, since the remodeled high-pressure high-pressure water tank is a low-pressure high-pressure water tank that is not subject to the laws and regulations as a type 2 pressure vessel, the remodeling work and maintenance after the remodeling are facilitated. Can be.

If the power supply for the air supply device is not provided on the installation portion of the tank body, for example, on the roof of the building, it is necessary to newly wire the power supply. However, wiring of the power supply for the air supply device is not easy, which causes an increase in cost. Therefore, in such a case, a pressure switch for controlling a water supply pump provided in a water supply pipe from the water supply pump to the tank body, particularly a portion called a header to which a water supply pipe to each chamber is connected, is provided in the pump chamber. The wiring of the pressure switch circuit which is no longer needed can be used as the wiring of the power supply for the air supply device.

In the step of attaching the exhaust valve to the tank body, a required exhaust valve can be attached by processing an existing manhole opening / closing lid attached to the tank body. With this configuration, the manhole opening / closing lid can be removed from the tank body, and the processing of the exhaust valve mounting portion can be easily performed, so that the mounting of the exhaust valve can be facilitated.

[0011] Furthermore, if water supply to each room is stopped during remodeling work,
This will inconvenience the user. In order to prevent such an inconvenience, it is preferable that the pressure of the water supply pump is controlled by a temporary control device, for example, an inverter during the remodeling work, so that the remodeling work can be completed without water interruption.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS First, an example of an accumulator type water supply tank to be remodeled will be described with reference to FIGS.
FIG. 1 is a front view of the accumulator type water tank, and FIG. 2 is a side view of the accumulator type water tank.

As is apparent from these figures, the accumulator type water supply tank of this embodiment is of a horizontal type, and a cylindrical tank body 1 whose left and right ends are sealed is supported on a base 3 by a gantry 2. I have. A bladder 4 for storing pressurized water is provided in the tank body 1, and a sealing gas such as nitrogen gas is sealed around the bladder. A manhole 5 communicating with the inner surface of the bladder 4 is opened in an upper part of the tank body 1, and an opening / closing lid 6 is detachably attached to the manhole 5. On the front side of the tank body 1, an initial filling port 7 for filling the filling gas into the tank body 1, a filling pressure adjusting valve 8 for the filling gas, a pressure gauge 9 for detecting the filling gas pressure, a tank body 1, a sight glass 10 for visually observing the state inside, an abnormal water detector 11 for detecting abnormal water reception of the bladder 4, and a nameplate 12 indicating the specifications and the like of the tank.
Is provided. At the lower part of the tank body 1, a water supply pipe 13 to which a water supply port of the bladder 4 is attached, and a bladder 4
A bladder abnormality detector 14 for detecting breakage of the
A drain 15 is provided for discharging water accumulated in the gas filling portion of the tank body 1. On the back side of the tank body 1, a ladder 16 for an operator to ride on the tank body 1 is attached.

Next, FIG. 3 shows an example of a water supply system using the above-mentioned accumulator type water supply tank. As is clear from this figure, in the water supply system of this example, the tank body 1 is installed on the roof of a building, and a water receiving tank 21 and a water supply pump 22 for supplying tap water to the tank body 1 are installed in a basement of the building. Have been. Water supply pipe 1 of tank body 1
3 and the water receiving tank 21 are connected via a water supply pump 22, a water supply conduit 23, and a header 24, and a water supply pipe 25 to each chamber is connected to the header 24. On / off of the water supply pump 22 is controlled by a control panel 27 based on a signal from a pressure switch 26 provided on the header 24, and a constant amount of tap water is always stored in the bladder 4.

Hereinafter, an example of a method for remodeling a water supply tank according to the present invention will be described with reference to FIGS. FIG. 4 is a configuration diagram of the water supply system after the modification, and FIG. 5 is a connection diagram of the air supply device and the tank body.

<Procedure 1> Bladder 4 from inside tank body 1
To remove. The bladder 4 can be removed from the manhole 5. Although the bladder 4 is large and heavy, the bladder 4 can be carried out using an elevator installed in a building by cutting the bladder 4 after removal.

<Procedure 2> An air supply device 31 is installed near the tank body 1, and the tank body 1 and the air supply device 31 are connected via an air pipe and a water pipe. As shown in FIG. 5, the air supply device 31 includes an air tank 32 having a small capacity, for example, a capacity of about 10 liters, and the air tank 3.
2, a water supply pipe 33 connected to the lower end of the air tank 32, and an air supply pipe 33 connected to the upper end of the water tank 3.
4, a bypass pipe 35 provided in the
, A drainage recovery pump 36, electromagnetic valves 37 a to 37 d provided at a predetermined portion of each pipe, and a control panel 42. As shown in FIG. 5, the air tank 32 is set lower than the level (upper limit position) of the water stored in the tank body 1. An air filter 33 a is attached to the air inlet of the air supply pipe 33 so that clean air can be supplied into the tank body 1 through the air tank 32. The air outlet 33b of the air supply pipe 33 is connected to an existing base attached to the tank body 1 via the air pipe 38, for example, an initial inlet 7 for the sealed gas and a mounting port for the sealed pressure adjusting valve 8. . On the other hand, the water distribution pipe 34 is connected to an existing water supply pipe 13 provided in the tank body 1 via a water pipe 39.

<Procedure 3> A power supply is connected to the air supply device 31. Note that there is no problem if a power supply for the air supply device 31 is provided near the installation portion of the air supply device 31, but if the power supply is not provided, a new power supply may be wired. Will be needed. However, wiring of the power supply for the air supply device is not easy, which causes an increase in cost. Therefore, in such a case, the pressure switch 26 provided on the header 24 is moved to the pump chamber, and the wiring 28 of the pressure switch circuit which has become unnecessary can be used as a power supply for the air supply device.

<Procedure 4> An exhaust valve 40 for discharging excess air from the tank body 1 is attached to the tank body 1. In this case, in order to easily attach the exhaust valve 40 to the tank body 1, it is preferable to process the existing manhole opening / closing lid 6 attached to the tank body 1 and attach the required exhaust valve 40. The manhole opening / closing lid 6 can be removed from the tank main body 1 and the processing of the exhaust valve mounting portion can be easily performed, so that the mounting of the exhaust valve 40 can be facilitated.

<Procedure 5> In the water supply pipe from the water supply pump to the water supply tank, for example, in the header 24, the pressure in the tank body 1 is reduced to 2 kg / cm ² or less, which is not subject to the regulation of the type 2 pressure vessel. A safety valve 41 for regulation is attached.

The operations in steps 1 to 5 can be performed in a state where the water supply to each room is stopped. However, in order to ease the inconvenience of the user, the pressure of the water supply pump is temporarily set during the operation. It is preferable to control with a control device, for example, an inverter or the like, so that the remodeling operation can be completed without water interruption.

In the above embodiment, the bladder 4
Immediately after the removal of the tank body 1, the air supply device 31 was installed. However, as a matter of course, the inside and outside of the tank body 1 can be cleaned, rust-proofed, painted, and the like as needed.

Further, in the above-described embodiment, the operation is completed by installing the safety valve. However, it is of course possible to perform post-processing such as replacement of a nameplate if necessary.

The operation of the water supply system after the remodeling will be described below with reference to FIGS. FIG. 6 is an operation explanatory diagram of the air supply device, and FIG. 7 is an operation timing chart of the air supply device.

A predetermined amount of water is stored in the tank body 1,
When the air pressure in the tank main body 1 is maintained at a predetermined pressure or higher, the electromagnetic valves 37a and 37d provided in the air supply device 31 are closed as shown in FIG.
The electromagnetic valves 37b and 37c are switched to the open state, and the air supply pipe 3 downstream of the setting portion of the electromagnetic valve 37a is
3. The inside of the air tank 32, the water distribution pipe 34, the bypass pipe 35, and the drainage recovery pump 36 is filled with water.

When the water in the tank body 1 is used and the pressure in the tank body 1 reaches a predetermined lower limit, the water supply pump 22 is activated by an operation signal from the pressure switch 26 and the control panel 27, and As shown in FIG. 6B, the electromagnetic valves 37a and 37d are switched to the open state, the electromagnetic valves 37b and 37c are switched to the closed state, and the drainage pump 3
6 starts. Thereby, the water filled on the upstream side of the solenoid valve 37b and the water stored in the air tank 32 are collected in the tank body 1 via the bypass pipe 35, and the negative pressure generated at that time causes Then, clean air is sucked into the air tank 32 from the air inlet of the air supply pipe 33.

When the water in the air tank 32 is replaced with air,
The drainage recovery pump 36 is stopped by an operation signal from a control panel 42 provided in the air supply device 31, and
When the solenoid valves 37a and 37d are closed, the solenoid valves 37b and 37d are closed.
c is switched to the open state. As described above, since the air tank 32 is set lower than the surface of the water stored in the tank body 1, when the solenoid valves 37a to 37d are switched as described above, the head of the tank body 1 is dropped due to the head drop. The water inside is introduced into the air tank 32 through the water distribution pipe 34, and the air in the air tank 32 is supplied into the tank body 1 through the air supply pipe 33 by the pressure.

FIG. 7 shows an operation timing chart of the air supply device 31. In this example, the drainage recovery pump 36 operates for 10 seconds in synchronization with the activation of the water supply pump 22, and after the drainage recovery pump 36 is stopped, the air in the air tank 32 is supplied into the tank body 1 over 10 minutes. It is a cycle to do. This cycle can be arbitrarily changed by changing the setting of a timer provided in the control panel 42, and the amount of air supply to the tank body 1 can be adjusted. Thus, the same air supply device 31 can be applied.

[0029]

As described above, according to the present invention,
The water tank after removing the bladder is diverted as it is as the tank body of the pressurized elevated water tank, so the step of removing the existing tank and the step of installing a new tank can be omitted, and the existing accumulator type elevated water tank is removed. However, compared to a case where a new pressurized elevated water supply tank is installed, the shift to the pressurized elevated water supply tank can be performed inexpensively and in a short period of time. In addition, since existing equipment can be diverted as it is for the water supply pump, the control panel, and the piping from the water supply pump to the water supply tank, the transfer to the pressurized high-place water supply tank can be performed inexpensively and in a short period of time. be able to. In addition, since the remodeled high-pressure high-pressure water tank is a low-pressure high-pressure water tank that is not subject to the laws and regulations as a type 2 pressure vessel, the remodeling work and maintenance after the remodeling are facilitated. Can be.

[Brief description of the drawings]

FIG. 1 is a front view of an accumulator type water supply tank.

FIG. 2 is a side view of the accumulator type water supply tank.

FIG. 3 is a configuration diagram of a water supply system using an accumulator-type water supply tank.

FIG. 4 is a configuration diagram of a water supply system after remodeling.

FIG. 5 is a connection diagram of an air supply device and a tank body.

FIG. 6 is a diagram illustrating the operation of the air supply device.

FIG. 7 is an operation timing chart of the air supply device.

[Explanation of symbols]

 Reference Signs List 1 tank body 2 base 3 foundation 4 bladder 5 manhole 6 manhole opening / closing lid 7 initial filling port 8 filling pressure regulating valve 9 pressure gauge 10 sight glass 11 abnormal water detector 12 nameplate 13 water supply pipe 14 bladder abnormality detector 15 drain 16 ladder 21 water receiving tank 22 water supply pump 23 water supply line 24 header 25 water supply pipe 26 pressure switch 27 control panel 27 31 air supply device 32 air tank 33 air supply pipe 34 water distribution pipe 35 bypass pipe 36 drainage recovery pump 37a-37d solenoid valve 38 air Pipe 39 Water pipe 40 Exhaust valve 41 Safety valve 42 Air supply device control panel

Claims (4)

[Claims] 1. A step of removing a bladder from an accumulator type high water tank, and a step of installing an air supply device for intermittently supplying air to a tank body from which the bladder has been removed.
Connecting the air supply device to the tank body using an existing base provided on the tank body, connecting a power supply to the air supply device, and discharging excess air to the tank body. Attaching a discharge valve to the water supply pipe from the water supply pump to the tank body.
mounting a safety valve that operates at a set pressure of not more than kg / cm ^{2, wherein} the accumulator type high-level water supply tank containing the bladder is a low-pressure type high-level tank that is not subject to laws and regulations as a type 2 pressure vessel. A method for remodeling a water supply tank, comprising remodeling the tank. 2. The method for remodeling a water supply tank according to claim 1, wherein a power supply is connected to the air supply device,
An existing pressure switch provided in the water supply pipe is moved to a pump chamber in which the water supply pump is installed, and wiring of an existing pressure switch circuit connected to the pressure switch is supplied to the air supply device with power. A method for remodeling a water tank characterized by being used as wiring. 3. The method for remodeling a water supply tank according to claim 1, wherein in the step of attaching the exhaust valve, an existing manhole opening / closing lid attached to the water supply tank is processed to attach the exhaust valve. Water tank remodeling method. 4. The method for remodeling a water supply tank according to claim 1, wherein during the remodeling operation of the water supply tank, the pressure of the water supply pump is controlled by a temporary control device, and the remodeling operation is completed without water supply. Water tank remodeling method characterized by the following.