JPH1053413A - Method and apparatus for producing calcium carbonate ionized water and calcium ion electrolytic coating apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To produce calcium carbonate ionized water containing a specific calcium content from granular natural water-soluble calcium carbonate ore by the conventional technology. SOLUTION: Natural water-soluble calcium carbide ore which has been spouted out of underground water of a hot spring and precipitated is formed into granules having a diameter of about 1 cm to 2 cm, and carbonated water is brought into contact with and circulated to gradually incorporate calcium carbonate into the water. A method for producing calcium carbonate ionized water containing at least 14 mg to a maximum of 1300 mg of calcium carbonate per liter, an apparatus for producing calcium carbonate ionized water that specifically realizes a method for producing calcium carbonate ionized water, and calcium carbonate ionized water This is a calcium ion electrolytic film apparatus using a manufacturing apparatus.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for producing calcium carbonate ionized water having a great effect in preventing metal corrosion in a water pipe, an apparatus for producing calcium carbonate ionized water for realizing the method, and this calcium carbonate. The present invention relates to a calcium ion electrolytic film apparatus using an ion water producing apparatus. The natural water-soluble calcium carbonate ore (CaCo ₃ component 95% or more, containing other natural effective minerals) which is a raw material used in the present invention is naturally sprung from groundwater at Ochomanbe bifurcated radium hot spring in Hokkaido, and the calcium carbonate of the component is It is a natural ore that has been deposited and solidified (Futagi Radium Hot Spring Lime Flower, designated as a Hokkaido Natural Heritage Monument), and this kind of natural water-soluble calcium carbonate ore (hot spring Lime Flower) is rare in the world, It is said that there are only two places in Mammoth Hot Springs and Yellow Fork Radium Hot Springs in Yellowstone National Park. Normal calcium carbonate ore crystals are calcite type such as marble,
It is hardly soluble in water. On the other hand, calcium carbonate ore produced from the bifurcated radium hot spring is water-soluble, called aragonite type, and has been produced since ancient times. This apparatus uses 100% of this natural water-soluble calcium carbonate ore.

[0002]

2. Description of the Related Art Conventionally, a method for producing a calcium carbonate ion aqueous solution from granular natural water-soluble calcium carbonate ore is as follows. A method in which granular calcium carbonate is brought into contact with water and allowed to dissolve naturally (Japanese Patent Publication 5
9-35246).

[0003]

The above-mentioned prior art has the following problems. Natural water-soluble calcium carbonate ore is granulated into water and naturally dissolved by contact with water.Natural water-soluble calcium carbonate ore, which is originally easily soluble in water, is brought into contact with water many times in the equipment and contained in water. This is to produce calcium carbonate ionized water by dissolving only the acidic component. For this reason, the granular natural water-soluble calcium carbonate ore continues to dissolve in strongly acidic water until it becomes neutral, and the calcium content in the aqueous solution increases, but when neutral water is used, it becomes longer. Even when natural water-soluble calcium carbonate ore in granular form is brought into contact with water, the calcium content is extremely small and the effect of dissolution cannot be expected. Therefore, it seems that calcium carbonate ionized water containing a specific calcium content cannot be produced in what is described in the prior art. The present invention has been made in view of such problems of the conventional technology, and an object of the present invention is to provide a device capable of solving the above-described problems.

[0004]

Means for Solving the Problems In order to achieve the above object, the present invention is as follows. The first invention is to contact a carbonated water formed by mixing carbon dioxide gas and water with granulated natural water-soluble calcium carbonate ore that has been spouted out of the groundwater of a hot spring and formed into a precipitate having a diameter of about 1 cm to 2 cm.
Circulate and slowly incorporate calcium carbonate into the water.
Calcium carbonate in liter minimum 14mg ~ maximum 1300
mg of calcium carbonate ionized water.

A second invention is directed to a side wall 2A of the first pressure tank 2.
And the upper end of the side wall 3A of the second pressure tank 3 are connected by a connecting pipe 4 having an electric ball valve 4A, and a tap water supply pipe 5 is connected to the bottom 2B of the first pressure tank 2. The tap water supply pipe is provided with an electric ball valve 5A and a line pump 5B from the side of the first pressure tank.
Electric ball valve 6A, line pump 6 from pressure tank side
B, a lower treated water pipe 6 in which a cooling device 6C is provided in order is connected, and a distal end of the lower treated water pipe 6 is connected to a lower part of a raw material tank 7; Filled with calcium ore, raw material tank 7
The upper treated water pipe 8 drawn out from the upper surface of the tank is branched into one pipe 8A and the other pipe 8B, and the one pipe 8A is connected to the first pressure tank 2 via the electric ball valve 8A1.
The tip of a carbon dioxide gas supply pipe 9A from a carbon dioxide gas supply facility 9 such as a carbon dioxide gas cylinder is connected to the upper part of the side wall 2A of the first pressure tank 2,
The carbon dioxide gas supply pipe 9A has an electric ball valve 9B for supplying carbon dioxide gas and a pressure gauge 9 with a contact from the first pressure tank 2 side.
C is provided, and the other pipe 8B of the upper treated water pipe 8 is connected between the pressure gauge with a contact and the carbon dioxide gas supply equipment 9 via a carbon dioxide gas supply electric ball valve 8C. A compressed air supply pipe 10A from the air compressor 10 is connected to an upper surface 2C of the first pressure tank 2 via an electric ball valve 10B for an air compressor, and an air vent pipe 11 drawn from the upper surface 2C of the first pressure tank 2. An electric ball valve 11A for bleeding air is provided at the end of the first pressure tank 2. An electrode water level gauge 12 is suspended from the upper surface in the first pressure tank 2, and the side wall 3 of the second pressure tank 3
A discharge pipe 13 for discharging calcium carbonate ion water is connected to the lower end portion of A, and a differential pressure flow rate with a pulse transmission for discharging calcium carbonate ion water from the second pressure tank side and counting the amount of water is connected to this discharge pipe. This is a device for producing calcium carbonate ion water in which a total 13A and an electric ball valve 13B are provided, and an electrode water level gauge 14 is suspended from the upper surface in the second pressure tank 3.

The third invention comprises an electrolytic coating apparatus main body 16 and a calcium carbonate ion water producing apparatus 1 according to the second aspect of the present invention. The electrolytic coating apparatus main body 16 is installed, for example, in a water supply facility of a high-rise apartment. In the water tank 16A and the rooftop elevated water tank 16B, the water supply pipe 1
6C is connected, a pump 16D1 is provided at the first water supply pipe 16D drawn from the water receiving tank, and the tip of the first water supply pipe 16D is branched into a second water supply pipe 16E and a third water supply pipe 16F. 2 The water supply pipe 16E has a manual valve 16E1, a differential pressure flow meter 16E2 with pulse transmission, a mixing section 16E3, and a manual valve 16E4 from the receiving tank side.
And a tip thereof is connected to the rooftop elevated water tank 16B, a third water supply pipe 16F is provided with a manual valve 16F1, and a tip thereof is provided between the manual valve 16E4 of the second water supply pipe 16E and the rooftop elevated water tank 16B. Is connected as a bypass to the mixing section 16E3 of the second water supply pipe 16E, and a fourth water supply pipe 16G is connected to the fourth water supply pipe. Is connected to a pipe 16H for supplying water to each house drawn from a rooftop elevated water tank 16B.
A fifth water supply pipe 16I having I1 is connected, and the fifth water supply pipe is a calcium ion electrolytic film apparatus to which the tap water supply pipe 5 in the calcium carbonate ion water production apparatus 1 is connected.

[0007]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described based on embodiments with reference to the drawings. The method for producing calcium carbonate ionized water of the first invention is configured as follows. Crusher (a device for finely crushing stones) of natural water-soluble calcium carbonate ore (CaCo ₃ component 95% or more, containing other natural effective minerals) that has been formed from hot spring groundwater and precipitated.
The carbon dioxide formed by mixing carbon dioxide and water is brought into contact with and circulated in the form of particles having a diameter of about 1 cm to 2 cm, and calcium carbonate is gradually introduced into the water. Adjust the calcium content in the water to at least 14 mg of calcium carbonate per liter
It is configured to freely produce calcium carbonate ionized water within a range of up to 1300 mg.

Reference numeral 1 denotes an apparatus for producing calcium carbonate ionized water according to the second invention. (See FIG. 1) Reference numeral 2 denotes a first pressure tank having a predetermined capacity, and reference numeral 3 denotes a second pressure tank having a predetermined capacity. The lower end portion of the side wall 2A of the first pressure tank 2 and the second pressure tank The upper end portion of the side wall 3A of the tank 3 is a connection pipe 4 having an electric ball valve 4A.
Are connected by

A tap water supply pipe 5 is connected to the bottom 2 B of the first pressure tank 2, and the tap water supply pipe is connected to a first water supply pipe 5.
Electric ball valve 5A, line pump 5B from pressure tank side
Is provided. A lower treated water pipe 6 in which an electric ball valve 6A, a line pump 6B, and a cooling device 6C are sequentially provided from the first pressure tank side is connected to a lower end portion of the side wall 2A of the first pressure tank 2. Treated water pipe 6
Is connected below the raw material tank 7. The raw material tank 7 is filled with granular natural water-soluble calcium carbonate ore. The upper treated water pipe 8 drawn from the upper surface of the raw material tank 7 has one pipe 8A and the other pipe 8A.
B, and one pipe 8A is connected to an electric ball valve 8A1.
Through the upper portion of the side wall 2A of the first pressure tank 2, and a carbon dioxide gas supply facility 9 such as a carbon dioxide gas cylinder.
The tip of the carbon dioxide gas supply pipe 9A is connected to the upper surface 2C of the first pressure tank 2, and this carbon dioxide gas supply pipe 9A
Is provided with an electric ball valve 9B for supplying carbon dioxide gas and a pressure gauge 9C with contacts from the first pressure tank 2 side, and an upper treated water pipe is provided between the pressure gauge with contacts and the carbon dioxide gas supply equipment 9. The other pipe 8B at 8 is connected via a carbon dioxide gas supply electric ball valve 8C.

A compressed air supply pipe 10A from the air compressor 10 is connected to an upper surface 2C of the first pressure tank 2 through an electric ball valve 10B for the air compressor.
It is connected to. An air bleeding electric ball valve 11A is provided at the tip of the air bleeding pipe 11 drawn from the upper surface 2C of the first pressure tank 2. An electrode water level gauge 12 is hung from the upper surface in the first pressure tank 2. In the figure, 12A is an abnormal water reduction detection rod, 12B is a water reduction detection rod, 1
2C is a full water detection rod, and 12D is an abnormal full water detection rod.

The lower end portion of the side wall 3A of the second pressure tank 3 is connected to a discharge pipe 13 of calcium carbonate ion water. The discharge pipe drains calcium carbonate ion water from the second pressure tank side to count the amount of water. 13A and a motor-operated ball valve 13B. An electrode water level gauge 14 is suspended from the upper surface in the second pressure tank 3. In the figure, 14A is an abnormal low water detection rod, 14B is a low water detection rod, 14C is a full water detection rod,
D is an abnormally full detection rod. In the figure, 2A1 is a temperature sensor attached to the first pressure tank 2, and 6C1 is a temperature sensor attached to the cooling device 6C.

A digital timer and a relay switch in a control device, a temperature sensor, a pressure gauge with a contact, a differential pressure flow meter with a pulse transmission, an electric ball valve, an electrode water level gauge, a cooling device, an air compressor, a line pump, a carbon dioxide gas The entire process from electrical water supply to calcium carbonate water production can be performed automatically by wiring such as supply equipment. 1. The following operation is repeated by ON / OFF of a digital timer that can be set from 1 hour to 24 hours provided in the control device. 2. Digital timer ON operation A. The electric ball valve 4A and the air ball valve 10B for the air compressor are closed. B. The air bleeding electric ball valve 11A is opened. C. The electric ball valve 5A is opened, the line pump 5B is operated, and the injection into the first pressure tank 2 is started.
At this position, the electric ball valve 5A is closed, the line pump 5B is stopped, and the air bleeding electric ball valve 11A is closed. D. The electric ball valve 9B for supplying carbon dioxide gas is opened, carbon dioxide gas is injected, and the first pressure tank 2 is set to the set value of the pressure gauge 9C with a contact.
Is reached, the carbon ball supply electric ball valve 9B is closed. E. FIG. After the electric ball valve 8A1 and the electric ball valve 6A are opened, the operation starts in the order of the line pump 6B and the cooling device 6C. F. The electric ball valve 8C for supplying carbon dioxide gas opens. 3. Digital timer OFF operation A. The electric ball valve 8C for supplying carbon dioxide is closed. B. The cooling device 6C, the line pump 6B is stopped, and the electric ball valve 8A1 and the electric ball valve 6A are closed in this order. C. The electric ball valve 4A and the electric ball valve 10B for the air compressor are opened, the air compressor 10 is operated, the compressed air is sent to the first pressure tank 2, and the produced calcium carbonate ionized water is moved to the second pressure tank 3 and stored therein. . D. When the water level drops to the position of the water reduction detection rod 12B in the electrode water level gauge 12 of the first pressure tank 2, or the position of the full water detection rod 14C of the electrode water level gauge 14 in the second pressure tank 3 returns to the digital timer ON operation.

Reference numeral 15 denotes a calcium ion electrolytic coating apparatus according to the third invention. (Refer to FIGS. 2 and 3.) The configuration includes an electrolytic film device main body 16 and a calcium carbonate ion water producing device 1. The electrolytic film apparatus main body 16 includes, for example, a water receiving tank 16A installed in a water supply facility of a high-rise apartment (not shown) and a rooftop elevated water tank 16.
In B, a water supply pipe 16C is connected to the water receiving tank, and a first water supply pipe 16D drawn from the water receiving tank is provided with a water pump 16D1.
The tip of 6D is the second water supply pipe 16E and the third water supply pipe 1
It branches to 6F. The second water supply pipe 16E is provided with a manual valve 16E1, a differential pressure flow meter 16E2 with pulse transmission, a mixing section 16E3, and a manual valve 16E4 from the water receiving tank side, and the tip thereof is connected to the rooftop elevated water tank 16B. The third water supply pipe 16F has a manual valve 16F1.
The tip is connected as a bypass to a portion between the manual valve 16E4 and the rooftop elevated water tank 16B in the second water supply pipe 16E. Second water supply pipe 16
In the mixing section 16E3 in E, a fourth water supply pipe 16G
The fourth water supply pipe is connected to a discharge pipe 13 of calcium carbonate ion water in the apparatus 1 for producing calcium carbonate ion water. 16G1 is a manual valve for draining. A fifth water supply pipe 16I having a manual valve 16I1 is connected to a water supply pipe 16H for each home drawn from the rooftop elevated water tank 16B, and the fifth water supply pipe is connected to the calcium carbonate ion water producing apparatus 1 in the fifth embodiment. Tap water supply pipe 5 is connected.

The operation sequence of the calcium ion electrolytic coating apparatus 15 of the third invention will be described below. The differential pressure flowmeter with pulse transmission counts the amount of water supplied from the water receiving tank 16A to the rooftop elevated water tank 16B by the pump 16D1 up to the flow rate set in the differential pressure flowmeter 16E2 with pulse transmission by the controller, and the setting is performed. When the value reaches the value, the differential pressure flow meter 16E2 with the pulse transmission supplies the calcium carbonate ion water produced by the calcium carbonate ion water production device 1 to the rooftop elevated water tank by operating the control device. 1. The count of the differential pressure flow meter 16E2 with pulse transmission is
When the flow rate value of the differential pressure flow meter with pulse transmission set by the control device is reached, the electric ball valve 13B in the calcium carbonate ionized water producing device 1 opens. 2. The calcium carbonate ionized water produced by the calcium carbonate ionized water production device 1 is injected into a rooftop elevated water tank. 3. The counting for draining the calcium carbonate ion water of the differential pressure flow meter 13A with the pulse transmission starts, and when the flow value of the differential pressure flow meter 13A with the pulse transmission set by the control device is reached, the electric ball valve 13B closes. . 4. When the count for draining the calcium carbonate ion water of the differential pressure flow meter 16E2 with the pulse transmission while the electric ball valve 13B is opened reaches the next set flow value, the count value is sequentially stored in the control device and activated. Is repeated continuously.

[0015]

Since the present invention is configured as described above, the following effects can be obtained. 1. Effect of the method for producing calcium carbonate ionized water of the first invention A. Controlling the carbon dioxide gas pressure, water temperature, production time, etc. with the controller, the calcium carbonate content in the water can be freely set within the range of at least 14 mg to 1300 mg of calcium carbonate in 1 liter of calcium carbonate. it can. B. The form of calcium contained in this aqueous solution is calcium bicarbonate [CaCo ₃ + H ₂ O + Co ₂ → Ca
(HCo ₃ ) ₂ ] in a state where calcium is surely dissolved in water. C. The pH value of the aqueous calcium carbonate solution produced by the present method is always stable within the range of 6.8 to 7.3. D. In the aqueous solution production process, granular natural water-soluble calcium carbonate ore is used, so that only the calcium component can be dissolved in carbonated water without dispersing fine powder insoluble substances etc. in water, and residual waste is also generated. Absent.

2. Effect of the apparatus for producing calcium carbonate ionized water according to the second invention The use of the apparatus is considered to be diversified, but the control unit sets the pressure of carbon dioxide gas, water temperature, production time, etc., and adjusts the content of calcium carbonate in the water to 1 14mg minimum
Calcium carbonate ionized water can be produced with a free setting within the range of ~ 1300 mg, so it is extremely easy to handle, especially in diversion of drinking water, etc. effective.

3. Effect of the Calcium Ion Electrolytic Coating Device of the Third Invention The calcium carbonate ion water produced by the calcium carbonate ion water production device 1 is managed by a control device using a differential pressure flow meter with a pulse transmission, etc. Mixed into the rooftop elevated water tank at a certain rate, and then the carbon dioxide gas is naturally released into the air in the rooftop elevated water tank, and the calcium carbonate component in the water is gradually carbonated onto the metal surface inside the water supply pipe due to the calcium carbonate ion metal adhesion effect. A protective film made of calcium is formed, and the protective film can surely prevent erosion of metal corrosion in a water pipe.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a second invention.

FIG. 2 is a configuration diagram of a main part of a third invention.

FIG. 3 is a configuration diagram of a main part of the third invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Apparatus for producing calcium carbonate ion water 2 First pressure tank 3 Second pressure tank 4 Connecting pipe 5 Tap water supply pipe 5B Line pump 6 Lower treated water pipe 6C Cooling device 7 Raw material tank 8 Upper treated water pipe 9 Carbon dioxide gas Supply equipment 10 Air compressor 11 Air vent pipe 12 Electrode water gauge 13 Discharge pipe for calcium carbonate ion water 14 Electrode water gauge 15 Calcium ion electrolytic film device 16 Electrolytic film device main body 16A Water receiving tank 16B Rooftop elevated water tank 16C Tap water supply pipe 16D First water supply pipe 16E Second water supply pipe 16E2 Differential pressure flow meter 16E3 with pulse transmission 16E3 Mixing unit 16F Third water supply pipe 16G Fourth water supply pipe 16H Water supply pipe to each household 16I Fifth water supply pipe

Claims (3)

[Claims] 1. A method of contacting and circulating carbonated water formed by mixing carbon dioxide gas and water to a natural water-soluble calcium carbonate ore that has been spouted out of underground water of a hot spring and formed into a precipitate having a diameter of about 1 cm to 2 cm. A method of producing calcium carbonate ionized water, wherein calcium carbonate is gradually incorporated into water to contain at least 14 mg to at most 1300 mg of calcium carbonate per liter. 2. A connecting pipe having an electric ball valve (4A), the lower end of the side wall (2A) of the first pressure tank (2) and the upper end of the side wall (3A) of the second pressure tank (3). (4) and connected to the bottom (2) of the first pressure tank (2).
A tap water supply pipe (5) is connected to B), and the tap water supply pipe is provided with an electric ball valve (5A) and a line pump (5B) from the first pressure tank side, and the first pressure tank (2). ) At the lower end of the side wall (2A), the electric ball valve (6A) and the line pump (6) from the first pressure tank side.
B), a lower treated water pipe (6) provided with a cooling device (6C) in this order is connected, and the distal end of the treated water pipe (6) is connected below a raw material tank (7) to form a raw material tank (7). ) Is filled with granular natural water-soluble calcium carbonate ore, and the upper treated water pipe (8) drawn from the upper surface of the raw material tank (7) is connected to one pipe (8A) and the other pipe (8B). One pipe (8A) is connected to an upper part of the side wall (2A) of the first pressure tank (2) via an electric ball valve (8A1), while a carbon dioxide gas supply facility (9) such as a carbon dioxide gas cylinder is provided. ) Is connected to the upper surface (2) of the first pressure tank (2).
C), the carbon dioxide gas supply pipe (9A) is provided with an electric ball valve (9B) for supplying carbon dioxide gas and a pressure gauge with contacts (9C) from the first pressure tank (2) side. The other pipe (8) in the upper treated water pipe (8) is provided between the pressure gauge with a contact and the carbon dioxide gas supply equipment (9).
B) is connected via an electric ball valve (8C) for supplying carbon dioxide gas, and a compressed air supply pipe (10A) from the air compressor (10) is connected via a motorized ball valve (10B) for air compressor. An electric ball valve for air bleeding (11) is connected to the upper surface (2C) of the first pressure tank (2).
A) is provided, and an electrode water level gauge (12) is suspended from the upper surface in the first pressure tank (2), and the second pressure tank (3) is provided.
A discharge pipe (13) of calcium carbonate ion water is connected to a lower end portion of the side wall (3A) of the pump. A differential pressure flow meter with transmission (13A) and an electric ball valve (13B) are provided.
An apparatus for producing calcium carbonate ionized water, wherein an electrode water level gauge (14) is suspended from the upper surface in a pressure tank (3). 3. An electrolytic coating apparatus main body (16) and an apparatus (1) for producing calcium carbonate ionized water according to claim 2, wherein the electrolytic coating apparatus main body (16) is installed, for example, in a water supply facility of a high-rise apartment building. Received water tank (16A),
In the rooftop elevated water tank (16B), a water supply pipe (16C) is connected to the water receiving tank, and a first water supply pipe (16D) drawn from the water receiving tank is a water pump (16D1).
The tip of the first water supply pipe (16D) is branched into a second water supply pipe (16E) and a third water supply pipe (16F), and the second water supply pipe (16E) is manually operated from the receiving tank side. 16E1), differential pressure flow meter with pulse transmission (16E2), mixing unit (16E3), manual valve (16
E4) is provided, and the tip is a rooftop elevated water tank (16
B), the third water supply pipe (16F) is provided with a manual valve (16F1), and its tip is located between the manual valve (16E4) in the second water supply pipe (16E) and the rooftop elevated water tank (16B). Is connected as a bypass to the mixing section (16E) in the second water supply pipe (16E).
A fourth water supply pipe (16G) is connected to 3), and a discharge pipe (13) of calcium carbonate ion water in the calcium carbonate ion water production device (1) is connected to the fourth water supply pipe, and a rooftop is provided. A fifth water supply pipe (16I) having a manual valve (16I1) is connected to a water supply pipe (16H) for each household drawn from the elevated water tank (16B), and the fifth water supply pipe has calcium carbonate. A calcium ion electrolytic coating device, wherein a tap water supply pipe (5) in the ion water production device (1) is connected.