JP2003236353A - Apparatus for producing ozonized water - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an apparatus for producing ozonized water which supplies the ozonized water having stable concentration by accelerating the response time of an ozone concentration control system. <P>SOLUTION: The apparatus for producing the ozonized water includes: an ozonized water tank 1 to store the ozonized water; a raw water line 2 for supplying raw water to the ozonized water tank; an ozonized water line 3 for taking out the ozonized water from the ozonized water tank; a mixing line 4 which forms a flow passage for taking out the water from the ozonized water tank, mixing an ozone gas and making the water flow into the ozonized water tank again; a mixing pump 5 installed in the mixing lien; and an ozone gas generating apparatus for supplying the ozone gas at the suction side of the mixing pump. The apparatus for producing the ozonized water further includes a flow rate sensor 20 to detect the flow rate of the ozonized water flowing in the ozonized water line, and a control part 22 to carry out control so that the amount of generation of ozone gas of the ozone gas generating apparatus is adjusted to obtain ozone concentration having a preset value of ozone concentration on the basis of the preset value and the flow rate detected value. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ozone water producing apparatus for producing ozone water by dissolving ozone gas in raw material water and supplying the ozone water.

[0002]

2. Description of the Related Art An ozone water producing apparatus is an apparatus for dissolving ozone gas in raw material water such as tap water to produce ozone water, and supplying the ozone water as needed for use such as cleaning. . A mixing pump method is known as a method having a high dissolution efficiency for dissolving ozone gas in water.

FIG. 3 shows a conventional mixing pump type ozone water producing apparatus. An ozone water tank 1 is used to store ozone water in which ozone gas is dissolved in raw material water. The raw material water line 2 is a conduit for supplying the raw material water from the water inlet 2a. The ozone water line 3 is a pipe line for taking out the ozone water stored in the ozone water tank 1 from the ozone water outlet 3a. The mixing line 4 forms a pipe line that draws out the water stored from the ozone water tank 1, mixes the ozone gas, and causes the ozone gas to flow into the ozone water tank 1 again. A mixing pump 5 is installed in the mixing line 4 and drives a water flow passing through the mixing line 4.

Reference numeral 6 denotes an ozone gas generator, which supplies ozone gas to the suction side of the mixing pump 5 as indicated by an arrow a attached to the ozone gas generator 6 and an arrow a attached to the mixing line 4. 7 is an ozone concentration meter,
Sample water is supplied from the ozone water line 3 through the bypass line 3b, and the ozone concentration in the ozone water line 3 is detected.

The raw water line 2 and the ozone water line 3 are provided with motor valves 10 and 11 which are interlocked with each other. The raw water line 2 is further equipped with a strainer 1
2, a pressure control valve 13, and a check valve 14 are provided. The ozone water tank 1 is provided with a pressure sensor 16, and the mixing line 4 is provided with a pressure control valve 17 and a pressure gauge 18.

The operation of this ozone water producing apparatus is as follows. When supplying ozone water, the motor valve 1
0 and 11 are opened interlockingly, ozone water is taken out from the ozone water outlet 3a, and raw material water is supplied to the ozone water tank 1 from the water inlet 2a. On the side of the user who has discharged from the ozone water outlet 3a, the intake flow rate of ozone water is adjusted by opening / closing a valve (not shown) or the like according to the flow rate used. Due to such a change in the intake water flow rate, the flow rate of the ozone water flowing through the ozone water line 3 changes.

Therefore, in order to maintain the ozone concentration of ozone water at a predetermined set value, it is necessary to adjust the ozone gas supply amount from the ozone gas generator 6 in accordance with the change in the intake water flow rate. Such adjustment of the ozone gas supply amount is performed by observing the indication value of the ozone concentration meter 7 and adjusting the ozone gas generation amount of the ozone gas generator 6 so that the indication value becomes a predetermined value.

[0008]

As described above, when the ozone gas supply amount is adjusted according to the indication value of the ozone concentration meter, it takes a long time to obtain a predetermined ozone concentration,
Moreover, the control was not stable.

Further, in the above apparatus, the electric signal of the detected concentration value output from the ozone concentration meter 7 is input to the ozone gas generator 6 through the concentration signal line 15 and feedback control is performed to determine the ozone concentration. It is also conceivable to construct a control system that keeps it constant.

However, even when such automatic control is used, the problem that the time required to obtain a predetermined ozone concentration is long and the control is not stable has not been solved. This is because in the case of ozone concentration in a liquid such as water, which has a higher density than that of air or the like, the ozone diffusion rate is slow because the diffusion speed of ozone in the liquid is slow.

Therefore, in the conventional ozone water producing apparatus, the ozone concentration cannot be quickly stabilized against the required change in the ozone water supply flow rate, so that a wide range of ozone water supply flow rates from a small flow rate to a large flow rate can be obtained. It was difficult to deal with. That is, only by limiting the fluctuation range of the ozone water supply flow rate to a small range, stable ozone concentration control was possible at a practically satisfactory speed.

It is an object of the present invention to provide an ozone production apparatus which hastens the response time of an ozone concentration control system and can rapidly supply ozone water having a stable concentration. Moreover, it aims at providing the ozone water manufacturing apparatus which can respond to the change of a wide range of ozone water supply flow rate by it.

[0013]

The ozone water producing apparatus of the present invention comprises an ozone water tank for storing ozone water, and a raw water line for supplying raw water to the ozone water tank.
An ozone water line for extracting ozone water from the ozone water tank, a mixing line for forming a flow path for drawing water from the ozone water tank, mixing ozone gas, and flowing the ozone gas into the ozone water tank again; A mixing pump installed in the line and an ozone gas generator for supplying ozone gas to the suction side of the mixing pump are provided. In order to solve the above-mentioned problems, a flow rate sensor that detects the flow rate of ozone water flowing through the ozone water line and outputs a flow rate detection value, and the ozone gas generation based on the set value of ozone concentration and the flow rate detection value. A control unit that adjusts the amount of ozone gas generated by the device and controls so that the ozone concentration of the set value is obtained.

According to this structure, it is possible to quickly stabilize the ozone concentration to a predetermined value. That is, by performing control based on the flow rate detection value, it is possible to quickly respond to changes in the ozone water flow rate, adjust the ozone gas supply amount according to the ozone water flow rate, and stabilize the ozone concentration quickly. is there. As a result, practically satisfactory speed control is possible for a wide range of ozone water supply flow rates from low flow rates to high flow rates.

Preferably, a concentration sensor for detecting the ozone concentration of the ozone water flowing through the ozone water line is provided, and the control device uses the concentration detection value output from the concentration sensor to determine the predetermined ozone concentration value. And a configuration for correcting the ozone gas generation amount based on the flow rate detection value.

Further, preferably, a plurality of mixing lines including the mixing pump are provided, and the number of operating mixing pumps is increased or decreased according to the flow rate detection value, and only the mixing line in which the mixing pumps to be operated are installed. Supply ozone gas.

[0017]

(Embodiment 1) FIG. 1 shows a configuration of an ozone water producing apparatus according to Embodiment 1 of the present invention. For elements similar to the conventional device shown in FIG.
The same reference numerals are given and the description is omitted.

In this embodiment, the ozone water line 3 is provided with a flow rate sensor 20. Flow sensor 2
The flow rate detection value, which is an output of 0, is input to the control device 22 integrated with the ozone gas generator through the flow rate signal line 20a. As will be described later, the control device 22 does not perform the control based on the ozone concentration value detected like the conventional device, but based on the flow rate detection value detected by the flow rate sensor 20, the ozone gas generation amount by the ozone gas generation device. To control. The control device 22 stores a desired set value for the ozone concentration of ozone water.

The ozone concentration detection value output from the ozone concentration meter 21 is also input to the control device 22 through the concentration signal line 21a. The ozone concentration detection value is used to perform a correction for enhancing the accuracy of the ozone concentration with respect to the control based on the output of the flow rate sensor 20.

As the ozone gas generator, it is desirable to use, for example, a device having a structure in which oxygen gas generated by the pressure swing adsorption method (PSA method) is converted into ozone gas by an ozonizer. By using the PSA method, it is possible to produce ozone gas having a higher concentration than that of an ozone gas generator that uses air as a raw material as it is, and it is possible to efficiently produce ozone water.

The operation of controlling the ozone concentration of the ozone water in this ozone water producing apparatus is as follows. Similar to the conventional device, when supplying ozone water, the motor valves 10 and 11 are interlocked and opened, ozone water is taken in from the ozone water outlet 3a, and raw material water is supplied from the water inlet 2a. The flow rate of the ozone water flowing through the ozone water line 3 is changed by adjusting the intake flow rate of the ozone water by opening and closing a valve or the like according to the flow rate used on the side of the user who exits the ozone water outlet 3a.

The flow rate of ozone water is detected by the flow rate sensor 20 and input to the controller 22. Control device 22
Controls the amount of ozone gas generated by the ozone gas generator, that is, the generation concentration of ozone gas, based on the flow rate detection value. Thereby, the amount of ozone gas supplied to the suction side of the mixing pump 5 is adjusted. The ozone gas supply amount is determined by the following equation based on the ozone concentration set value and the ozone water flow rate indicated by the flow rate detection value by the flow rate sensor 20.

Ozone water ozone concentration set value = ozone gas supply amount (g / h) / ozone water flow rate detection value (m ³ / h) That is, the ozone gas supply amount for obtaining the set desired ozone concentration is ozone. It depends on the water flow rate. Thereby, the control device 22 controls the ozone gas generation amount of the ozone gas generation device and supplies the ozone gas at an appropriate flow rate to the suction side of the mixing pump 5.

As described above, by controlling the ozone gas generation amount based on the ozone water flow rate in the ozone water line 3, it is possible to quickly control the ozone concentration to a predetermined value. That is, since the ozone gas supply amount is adjusted on the assumption that the ozone gas is diffused with respect to the detected flow rate value, without being restricted by the response time of ozone concentration detection by the ozone concentration meter as in the conventional device, The ozone concentration stabilizes at a predetermined value in quick response to changes in the ozone water flow rate.

Further, since it is possible to respond quickly to changes in the flow rate of ozone water, a practically satisfactory speed control can be performed for a wide range of ozone water supply flow rates from a small flow rate to a large flow rate. .

In order to control the ozone concentration with higher accuracy, the control device 22 further uses the ozone concentration detection value output from the ozone concentration meter 21 to control the above-mentioned flow rate based on the flow rate detection value of the flow rate sensor 20. To correct. That is, the detected ozone concentration value is compared with the ozone concentration set value, and the ozone gas supply amount according to the above equation is increased or decreased within a narrow range based on the difference.

Even when the ozone concentration is controlled based on only the flow rate detection value of the flow rate sensor 20 without using the ozone concentration value output from the ozone concentration meter 21, the accuracy is practically sufficient depending on the application. It is possible to control the ozone concentration by adjusting the speed and the speed. Thereby, a simple and inexpensive ozone water manufacturing apparatus can be manufactured.

(Embodiment 2) FIG. 2 shows an ozone water producing apparatus according to Embodiment 2 of the present invention. The ozone water producing apparatus according to the present embodiment has three mixing lines 4a, 4
b, 4c with mixing pump 5 in each mixing line
a, 5b, 5c are installed. As indicated by arrows a, b and c attached to the control device 23 and arrows a, b and c attached to the mixing lines 4a, 4b and 4c from the ozone gas generator incorporated in the control device 23. , Mixing pumps 5a, 5b in the mixing lines 4a, 4b, 4c,
Ozone gas is supplied to the suction side of 5c.

The controller 23 changes the amount of ozone gas generated according to the flow rate of ozone water detected by the flow rate sensor 20, and also the number of lines to which ozone gas is supplied among the mixing lines 4a, 4b, 4c. Increase or decrease. Further, the mixing pumps 5a, 5b, 5c can be operated individually, and the control device 23 operates the mixing pumps 5a, 5b, 5c according to the increase and decrease of the mixing lines 4a, 4b, 4c to which ozone gas is supplied. .

An example of the operation of this ozone water producing apparatus is as follows. The control device 23 uses the flow rate detection value input from the flow rate sensor 20 to calculate the ozone gas supply amount to be supplied to the mixing line based on the above equation. Also,
The mixing lines 4a, 4b, 4c to which ozone gas is supplied are increased or decreased according to the detected flow rate, and the operation of the mixing pumps 5a, 5b, 5c is switched accordingly. The increase and decrease thereof are performed as follows, for example.

If the maximum ozone gas supply capacity of the ozone gas generator is L (flow rate), for example, the ozone gas supply amount is less than L / 3, L / 3 or more and less than 2L / 3, and 2L.
The number of mixing lines 4a, 4b, 4c to which the ozone gas is to be supplied is increased or decreased depending on the case of each region of / 3 or more. The operation of the mixing pumps 5a, 5b, 5c is also switched according to the selection of the mixing lines 4a, 4b, 4c.

If the ozone gas supply amount is less than L / 3,
Only the mixing pump 5a is operated to supply ozone gas only to the mixing line 4a. In that state, the ozone gas generation amount is controlled in a range of less than L / 3 according to the flow rate detection value of the flow rate sensor 20.

If the ozone gas supply amount is L / 3 or more and less than 2L / 3, the two mixing pumps 5a and 5b are operated,
Ozone gas is supplied to the mixing lines 4a and 4b. In this case, for example, L / 3 ozone gas is supplied to the mixing line 4b, and the remaining ozone gas of less than L / 3 is mixed line 4a.
Supply to. Therefore, by controlling the ozone gas generation amount according to the flow rate detection value by the flow rate sensor 20, the ozone gas supply amount to the mixing line 4a changes within the range of less than L / 3.

If the ozone gas supply amount is 2 L / 3 or more, the three mixing pumps 5a, 5b and 5c are operated to supply the ozone gas to the mixing lines 4a, 4b and 4c. In that case, L / 3 ozone gas is fed to the mixing line 4b at L /
The ozone gas of No. 3 is supplied to the mixing line 4c, and the remaining ozone gas of less than L / 3 is supplied to the mixing line 4a. Therefore, by controlling the ozone gas generation amount according to the flow rate detection value of the flow rate sensor 20, the mixing line 4
The ozone gas supply amount to a changes within the range of less than L / 3.

In any case, the mixing pump to be operated is operated in the most efficient state.

By increasing or decreasing the number of operating mixing pumps and the number of mixing lines to which ozone gas is supplied, it is possible to operate in a region where pump efficiency is high and to suppress energy loss. For example, according to the above configuration, three mixing pumps each having a small capacity of about 1/3 can be used as compared with the case where only one large mixing pump is used. With a device that uses only one pump, even if the load (ozone water flow rate) is small, operate at a higher output than necessary in a high pump efficiency range, or suppress the pump output to reduce pump efficiency. I have no choice but to drive in a low range. In either case,
It consumes unnecessary energy. On the other hand, by using three pumps, it is possible to reduce the number of operating pumps as needed, and to reduce the overall output while operating the pumps to be operated in a highly efficient area. The total amount of energy consumption can be reduced.

[0037]

As described above, according to the present invention, it is possible to realize an ozone water producing apparatus capable of quickening the response time of the ozone concentration control system and supplying ozone water having a stable concentration. In addition, this makes it possible to cope with a wide range of changes in the ozone water supply flow rate.

[Brief description of drawings]

FIG. 1 is a diagram showing a schematic configuration of an ozone water producing apparatus according to a first embodiment of the present invention.

FIG. 2 is a diagram showing a schematic configuration of an ozone water producing apparatus according to a second embodiment of the present invention.

FIG. 3 is a diagram showing a schematic configuration of a conventional ozone water production apparatus.

[Explanation of symbols]

1 Ozone water tank 2 Raw water line 2a water inlet 3 Ozone water line 3a Ozone water outlet 3b bypass line 4, 4a, 4b, 4c mixing line 5, 5a, 5b, 5c mixing pump 6 Ozone gas generator 7 Ozone concentration meter 10, 11 motor valve 12 strainers 13 Pressure control valve 14 Check valve 15 Concentration signal line 16 Pressure sensor 17 Pressure control valve 18 pressure gauge 20 Flow sensor 20a Flow rate signal line 21 Ozone concentration meter 21a Concentration signal line 22, 23 Control device

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ Identification code FI theme code (reference) C02F 1/78 ZAB C02F 1/78 ZAB

Claims (3)

[Claims] 1. An ozone water tank for storing ozone water,
A raw water line for supplying raw water to the ozone water tank, an ozone water line for taking out ozone water from the ozone water tank, and water for drawing out ozone water from the ozone water tank and mixing the ozone water again Ozone water production apparatus including a mixing line that forms a flow path for flowing into a tank, a mixing pump installed in the mixing line, and an ozone gas generator for supplying ozone gas to the suction side of the mixing pump In, a flow rate sensor that detects the flow rate of ozone water flowing through the ozone water line and outputs a flow rate detection value, and adjusts the ozone gas generation amount by the ozone gas generator based on the set value of ozone concentration and the flow rate detection value. And a control unit for controlling so that the ozone concentration of the set value is obtained. . 2. A concentration sensor for detecting an ozone concentration of ozone water flowing through the ozone water line, wherein the controller uses the concentration detection value output from the concentration sensor to set the ozone concentration set value and the ozone concentration setting value. The ozone water production apparatus according to claim 1, wherein the ozone gas generation amount adjusted based on the flow rate detection value is corrected. 3. A plurality of mixing lines including the mixing pump are provided, and the number of operating mixing pumps is increased / decreased according to the detected flow rate, and ozone gas is supplied only to the mixing line in which the mixing pump to be operated is installed. It supplies, The ozone water manufacturing apparatus of Claim 1 or 2 characterized by the above-mentioned.