JP2676318B2 - Water treatment equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a simple water treatment device which can be used by connecting to a water tap of a general household.

[0002]

2. Description of the Related Art Conventionally, water treatment such as a water purifier that can be used by connecting to a water tap, an adder that mixes health agents such as minerals into water, and an electrolytic cell that produces alkaline ionized water by electrolysis. Vessels have been proposed and put into practical use. For city water supply and groundwater supply, water source pollution,
There are various problems such as trace chemical substances (hazardous substances that may adversely affect the human body), odor of water, etc. In the current situation where it is not possible to rely on water supply administration alone, the above-mentioned water purifier, adder, electrolyzer The water treatment device such as is useful in that each household can independently obtain safe, delicious, and healthy drinking water.

[0003]

However, not only the above-mentioned water treatment device such as a water purifier, an adder, an electrolytic cell, etc.
When used together, the number of components increases, so
The size of the entire device is large, and maintenance after installation is more complicated than when used alone, making handling difficult. The present invention has been made to solve the above problems, and the entire apparatus can be made compact even if the water purifier, the health-care agent adder, and the water treatment device such as the electrolytic cell are used together. Moreover, it is an object of the present invention to provide a water treatment device that can be inspected and repaired as a single component even in maintenance after installation.

[0004]

In order to achieve the above object, the present invention is a centralized flow path control unit for performing at least water supply to a water purifier, a health agent addition device, and water supply and drainage to an electrolytic cell. In the centralized flow path control unit, the water supply source and the inflow port of the water purifier are connected and are closed by the water supply pressure.
And a first pipe line having a first check valve, and the first pipe line is the first pipe line.
And a second pipe line which is connected through the check valve and is fast connected to the outlet of the water purifier, the inlet of the electrolytic bath, and the inlet of the health care agent adder, and the second pipe. The electrolysis tank is connected integrally with a third pipe line connected to a drain port through a second check valve that is closed by the water supply pressure, and the third pipe line is connected to the electrolytic cell due to a change in water pressure. The water pressure sensor for activating the operation control switch is provided, and water supply control is performed.

[0005]

In the water treatment apparatus having the above structure, the water treatment units such as the water purifier, the health-care agent adder, and the electrolyzer are connected to each other through the centralized flow passage control unit, which enables centralized control of the flow passages. As for maintenance, it is possible to inspect and repair only the unit part.

[0006]

1 to 5 show an embodiment of the present invention. In the figure, reference numeral 1 is a box that houses a plurality of water treatment units. Inside the box 1, a water purifier A for removing water pollutants and trace chemical substances contained in tap water by adsorption of activated carbon, and calcium carbonate or calcium glycerophosphate, glycerin β-D-in tap water. A health agent addition device B in which a mineral agent such as glucose or a nutritional agent, a vitamin agent is mixed, and an electrolytic cell C which electrolyzes water to continuously generate alkaline ionized water and acidic water are a centralized flow path control unit. It is accommodated in a state of being connected to D.

The water purifier A comprises a case 2 filled with activated carbon 3 to form a fixed bed, and 4 is an inlet for water and 5 is an outlet. The health agent addition device B stores the mesh tube 7 containing the mineral agent in the tank 6 and allows the water to flow from the lower part to the upper part of the tank to form the mesh tube 7
It is a structure that elutes mineral agents into water through
Is a water inlet, and 9 is an outlet. Electrolytic bath C is bath 10.
The inside is divided into a cathode chamber 12 provided with a cathode 11 and an anode chamber 15 in which an anode 13 is independently formed by a diaphragm 14, and 16 is an inlet on the cathode chamber side and 17 is an outlet. 1
Reference numeral 8 is an inlet on the anode chamber side, and 19 is an outlet. The centralized flow path control unit D includes a first pipe line d ₁ , a second pipe line d ₂ that communicates with one end of the first pipe line d _2, and a third pipe line that communicates with one end of the second pipe line d _2. has three main conduit tracts d _3.

The first pipe line d ₁ has a tap water connection port portion 20 at one end thereof, and a first port 21 having a ball 21 and a valve port 22 at a portion intersecting with the second pipe line d ₂ . A check valve is provided, and a pipe port portion 23 connected to the inflow port 4 of the water purifier A is provided near the check valve. 24
Is a ball control member of the check valve portion. Supplied from tube mouth 20
When water is applied and a predetermined water pressure is applied, the ball 21 opens the valve opening 22.
Close. When the water pressure falls below a predetermined level, the ball 21
It separates from the valve port 22. In the second pipeline d ₂ , the third pipeline d
₃ , a pipe opening 25 connected to the outlet 5 of the water purifier A is provided, and a pipe opening 26 connected to the inlet 8 of the health-care product adder B is provided in the vicinity thereof. A constant flow rate control unit E, which will be described later, is provided at the front portion thereof, and a cathode chamber side inflow port 16 of the electrolytic cell C is provided at the end thereof.
Further, a tube mouth portion 27 connected to the anode chamber side inlet 18 is provided. The third conduit d ₃ is provided at one end thereof with a diaphragm 28 that operates by a change in water pressure of the conduit, and a protrusion 29 attached to the diaphragm 28 is provided outside the conduit. It is engaged with S so that the electrolysis cell can be started, stopped, and the polarity can be changed.
The diaphragm 28 and the protrusion 29 constitute the water pressure sensor.

Further, the diaphragm 2 is provided in the third conduit d _3.
A second check valve portion including a ball 30 and a valve opening 31 is provided at a portion opposite to the position 8 and a drainage pipe opening portion 32, which will be described later, is provided at the end of the second check valve portion. Reference numeral 33 is a ball restraining member of the check valve portion. When the right side of the illustrated ball 30 is subjected to a water pressure higher than a predetermined value, the ball 30 closes the valve opening 31. Reference numeral 34 is a vent pipe opening. The outlet 9 of the health-care agent adder B is connected so as to join with the water flowing into the anode chamber side inlet 18 of the electrolytic cell 10.

In FIG. 1, 35 is a hose for guiding tap water to the pipe opening 20 of the first conduit, and 36 is water flowing out of the pipe opening 26 of the second conduit, which flows through the health agent addition device B. A hose for leading to the inlet 8, a hose 37 for guiding the water flowing out from the outlet 9 of the adder to the anode chamber side inlet 18 of the electrolytic cell C, and a 38 flowing out from the pipe mouth portion 27 of the second pipe line. Hose for introducing water to the cathode chamber side inflow port 16 of the electrolytic cell C, 39 for extracting alkaline ionized water flowing out from the cathode chamber side outflow port 17 of the electrolytic cell C to the outside, 40 for the anode chamber side The hose for taking out the acidic water flowing out from the outflow port 19 to the outside is shown.

As shown in FIGS. 4 and 5, the above-mentioned constant flow rate control section E comprises a valve element 41 and a seat 42 made of a rubber-like elastic material and superposed on the valve element 41. The valve body 41 has a water passage hole 41a penetrating the valve body 41 in the direction of the pipeline at its central portion.
In addition, a plurality of water passage grooves 41b penetrating in the radial direction are formed on the end surface that abuts the seat body 42. on the other hand,
A water passage hole 42a penetrating in the pipe direction is formed in the seat body 42 so as to communicate with the central water passage hole 41a of the valve body 41.

In the constant flow rate control section E, the water in the pipeline is transmitted through the central water passage hole 41a of the valve body 41 and the water passage groove 4 in the radial direction.
The central water passage 42 of the seat 42 is passed through the two passages 1b.
to a. The flow rate of water passing through the valve body 41 is the water passage hole 41a.
(P + Q), which is the sum of the flow rate P passing through and the flow rate Q passing through the plurality of water passages 41b. However, when the water pressure in the conduit changes, for example, when the water pressure rises, the pressing force acting on the end face of the valve body 41 also increases, so that the valve body 41 contacts the seat body 42 made of a rubber-like elastic material. The water flow cross-sectional area of the water flow groove 41b is narrowed by the deformation of the seat body 42, and the flow rate decreases. In this case, the water cross section of the central water passage 41a of the valve body 41 is not affected by the change in water pressure, and the flow rate increases or decreases in proportion to the water pressure. Therefore, according to the constant flow rate control unit E, the flow rate through the valve body 41 is kept substantially constant with respect to the change in the water pressure in the pipeline, so that the amount of water supplied to the electrolytic cell C can be kept substantially constant. it can. The graph of FIG. 6 shows the relationship between the valve working pressure on the valve element 41 and the flow rates P and Q.

Next, the operation of the water treatment device having the above structure will be described. When a tap (not shown) is opened, the tap water is fed into the central passage control unit D of the first pipe line d _{1 through} the pipe opening 2
It flows from 0 into the pipeline. Then, the fluid pressure causes the ball 21 to move, the valve opening 22 to be closed, and the water to flow into the pipe opening 23.
Of the purified water from the water inlet 4 of the water purifier A, the purified water exits the outlet 5 and flows through the second pipe line d ₂ and the third pipe line d _3.
Flows into the pipe from the pipe opening 25 at the intersection. A part of the water in the second pipe line d ₂ exits the pipe mouth portion 26 and flows into the container from the inflow port 8 of the health-care agent addition device B, and the water to which the health-care agent is added exits the outflow port 9. It is sent from the anode chamber side inflow port 18 of the electrolytic cell C into the cell. Further, the water in the second pipe line d ₂ has a constant flow rate control unit E.
After passing through the tube mouth portion 27, it is sent from the cathode chamber side inlet port 16 and the anode chamber side inlet port 18 into the tank. On the other hand, in the third pipe line d ₃ , the ball 30 is moved by the fluid pressure, the valve opening 31 is closed, the diaphragm 28 is pushed by the fluid pressure generated there, and the protrusion 29 is displaced. The switch S is activated, the power supply circuit (not shown) of the electrolytic cell C is turned on, and the electrolytic cell is activated.

In the electrolytic cell C, alkaline ionized water (cathode water) and acidic water (anode water) are continuously produced by electrolysis of water, and the alkaline ionized water is supplied from the outlet 17 through the hose 39 to drinking water. The acidic water is taken out from the outlet port 19 through the hose 40 and from the pipe mouth portion 34 to the pipe mouth portion 3.
It flows to 2 and is taken out. Alkaline drinking water obtained by the treatment of the water purifier A, the health agent addition device B, and the electrolytic cell C is safe, delicious, and has a mineral-like property because most of harmful substances contained in tap water are removed. It becomes drinking water that contains health supplement ingredients.

Next, when the water faucet is closed and the supply of water is stopped, the water pressure is released, the diaphragm 28 is restored, the micro switch S is opened and closed, and the operation of the electrolytic cell C is stopped. In addition, the balls 21 and 30 of the check valve portion are the valve openings 22 and 3.
Since it is separated from 3, the residual water in the electrolytic cell and the health-promoting agent adder is returned to the second pipe line d ₂ by the head, passes through the valve port 31, and from the pipe port portion 32 via a hose (not shown). It is taken out. Further, when the diaphragm returns, a voltage of opposite polarity is applied to the electrolytic cell, and a cleaning process is performed for a certain period while the residual water in the electrolytic cell is discharged, and the residual water is discharged from the pipe mouth portion 32 to the outside.

[0016]

EFFECTS OF THE INVENTION According to the present invention, in a water treatment device which uses a combination of water treatment parts such as a water purifier, a health agent addition device, and an electrolyzer, these water treatment parts are connected via a centralized flow path control unit. Since it is configured as described above, it becomes possible to perform centralized control of the flow path, and maintenance can be performed by inspecting and repairing only the unit portion.

[Brief description of the drawings]

FIG. 1 is a perspective view of a water treatment device showing an embodiment of the present invention.

FIG. 2 is an exploded configuration diagram of a water treatment device showing an embodiment of the present invention.

FIG. 3 is a transverse cross-sectional view of the centralized flow path control unit of the water treatment device according to the embodiment of the present invention.

FIG. 4 is an exploded perspective view of a constant flow rate control unit of the water treatment device according to the embodiment of the present invention.

FIG. 5 is a constant flow rate control of a water treatment device showing an embodiment of the present invention.
FIG .

FIG. 6 is a graph showing the relationship between the flow rate of the constant flow rate control unit and the valve working pressure.

[Explanation of symbols]

1 Box A Water purifier B Health agent adder C Electrolyzer D Centralized flow path control unit d ₁ First line d ₂ Second line d ₃ Third line E Constant flow rate control unit S Micro switch 20, 23, 5,26,27,32,34 Tube mouth

Continuation of the front page (51) Int.Cl. ⁶ Identification code Reference number within the agency FI Technical display location C02F 1/68 530 C02F 1/68 530C 540 540E (56) References Actually published Sho-55-115394 (JP, U) Actual Public Sho 57-40151 (JP, Y2) Actual Public Sho 63-10872 (JP, Y2) Actual Public Hei 2-7675 (JP, Y2)

Claims (1)

(57) [Claims] 1. A centralized flow path control unit for distributing water supply to at least a water purifier, a health-agent additive, and supplying and draining water to an electrolyzer, wherein the centralized flow path control unit comprises a water supply source and the water purifier. The inlet is quickly connected and blocked by the water supply pressure.
And a first pipe line having a first check valve, and the first pipe line is the first pipe line.
And a second pipe line connected to the outflow port of the water purifier, the inflow port of the electrolyzer and the inflow port of the health-care agent-adding device, and the second pipe line. is, is configured integrally connected and a third conduit which is quick connect to the second check valve drain outlet through which closes at supply pressure, the electrolytic cell by the change in water pressure in the third conduit The water treatment device is provided with a water pressure sensor for activating the operation control switch, and water supply control is performed.