JP2704551B2 - Raw water softening equipment - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a raw water softening apparatus for ion-exchanging raw water containing hardness into soft water.

[Prior Art] As is well known, for example, in a water supply system for a boiler can or the like, a water softener is connected in a water supply line and raw water (tap water, well water, other industrial water) supplied as appropriate. Is treated in soft water and then supplied into a boiler can. As described above, the water softener disposed in the water supply line has a structure in which the Na-type cation exchange resin is accommodated in the container, and passes through the container by the action of the ion exchange resin. Hardness (eg Mg ²⁺ , Ca ²⁺ etc.)
Is a device that softens raw water containing water and sends it out of the vessel. The ion exchange resin in the water softener deteriorates during the process of softening raw water, and requires a system for regenerating the ion exchange resin. In order to regenerate the ion exchange resin in the water softener, a method of supplying a salt water having a preset concentration range to the ion exchange resin is employed. In other words, the conventional raw water softening apparatus has an ion exchange resin inside the container to alternately perform a water passing step of passing raw water through a water softener for softening treatment and a regeneration step of regenerating the ion exchange resin in the water softener. And a regeneration medium storage tank for supplying a regeneration medium to the water softener.

[Problems to be Solved by the Invention] The above-mentioned conventional raw water softening apparatus alternately performs a water passing step of passing raw water through a water softener to soften the raw water and a regeneration step of regenerating an ion exchange resin in the water softener. In terms of a device that must be performed, the operation efficiency is poor and there is a major problem of leakage of hardness.

Therefore, the present invention provides a raw water softening apparatus which is excellent in operating efficiency and hardly causes a leakage of hardness.

Means for Solving the Problems In order to achieve the above object, the present invention specifically provides a water softener for accommodating an ion exchange resin in a water supply line between a raw water supply source and equipment using soft water. And a water softening treatment system for passing raw water through the water softener to soften the raw water and supply it to equipment using soft water, and to regenerate the ion exchange resin degraded by water softening of the raw water. In the raw water softening treatment apparatus including the regeneration medium supply system, a first and second flow path ports, and a control valve connected to each of the flow path ports, respectively, the first and second flow path ports, A plurality of water softeners annularly connected to each other via each control valve; and a raw water supply opening / closing valve between the control valve on each first flow path port side and the raw water supply source in each of the water softeners. A soft water supply line that connects between a control valve on each second flow path port side of each water softener and the soft water use device via a soft water supply opening / closing valve, A regeneration medium supply line that connects a control valve on the first flow path port side and a regeneration medium supply source in each water softener via a regeneration medium supply on-off valve, respectively; and a second flow path in each water softener. A drain line for connecting the control valve and the drain on the road entrance side, respectively, by switching the respective lines, between the raw water supply source and the equipment using soft water, at least two of the plurality of water softeners A flow path connection state in which water is connected in series via a water softener and a flow path connection state in which at least one of the remaining water softeners is connected to a regeneration medium supply line are sequentially set. A raw water softening apparatus comprising a controller for performing rotation control is configured.

[Action] In the raw water softening apparatus of the present invention configured as described above, for example, three water softeners are connected in series in a ring between a raw water supply source and equipment using soft water such as a boiler can. By switching the lines connecting the respective flow paths, the raw water supply source and the equipment using soft water are connected in series through two water softeners, and the remaining water softeners are connected to the regeneration medium supply line. The water supply step and the regeneration step are performed simultaneously. In the present invention, the rotation of the water passage process and the regeneration process of each water softener is sequentially controlled by programming the line switching in advance.

[Description of Embodiment] Hereinafter, a raw water softening apparatus according to the present invention will be described in detail based on a specific embodiment shown in the drawings.

In the raw water softening treatment apparatus according to the present invention, in its basic configuration, a water softener component group (3) is connected in a flow path between a raw water supply source (1) and a device using soft water (2); The reproduction medium supply source (4) is connected to the flow path of the container group (3). In the present invention, the water softener (3) includes, for example, three water softeners (3A), (3B) and (3C) as shown in the drawing. The water softeners (3A), (3B) and (3C) are respectively provided with a first channel opening (5A), (5B) and (5C) and a second channel opening (6
A), (6B) and (6C). The three-way switching control valves (7A), (7B) and (7C) are connected to the first flow path ports (5A), (5B) and (5C), respectively. 6A), (6B) and (6C)
Similarly, a three-way switching control valve (8A), (8B)
And (8C) are connected. The three water softeners (3A),
(3B) and (3C) are annularly connected in series by flow paths (9A), (9B) and (9C), respectively.

On the other hand, the line system for connecting the flow paths in the present invention includes raw water supply lines (10A), (10B), and (10C).
From the soft water supply lines (11A), (11B), (11C), the regeneration medium supply lines (12A), (12B), (12C), and the drain lines (13A), (13B), (13C). Has become. Raw water supply line (10A), (10B), (10C)
Are the first flow path ports (5A), (5
B), (5C) side control valve (7A), (7B),
(7C) and the raw water supply source (1) are connected via raw water supply on-off valves (14A), (14B), and (14C), respectively. The soft water supply line (11A), (11B), (11C)
Are the second flow path ports (6A), (6
B), (6C) side control valve (8A), (8B),
(8C) and the equipment using soft water (2) are connected via soft water supply on-off valves (15A), (15B), and (15C), respectively. The reproduction medium supply lines (12A), (12B), (12
C) is a first channel opening (5A) in each water softener,
(5B), (5C) side control valve (7A), (7
B), (7C) and the reproduction medium supply source (4), respectively, and a reproduction medium supply opening / closing valve (16A), (16B), (16C).
Connect through. Further, the drain line (13
A), (13B), and (13C) are the control valves (8A), (8B), and (8C) on the second flow path ports (6A), (6B), and (6C) side in the water softeners. It connects to the drain respectively. In a specific example of the device of the present invention,
Each of the control valve and each of the on-off valves is configured by a motor valve that is switched or opened and closed by an electric signal.

The raw water softening apparatus according to the present invention includes a controller (17) programmed in advance. The controller (1
The electric signal from 7) controls the switching of the control valve and the opening and closing of each on-off valve in each line, thereby switching each line. By switching the respective lines, for example, two water softeners (3) of the water softener group (3) are connected between the raw water supply source (1) and the equipment using soft water (2).
A), the flow path connection state in which water is connected in series via (3B), and one of the remaining water softeners, for example, one water softener (3C)
And a flow path connection state in which is connected to the reproduction medium supply line. FIG. 2 shows an image of this rotation control.

Next, with respect to a more specific configuration example of the raw water softening treatment apparatus according to the present invention, aspects of fluid flow in each rotation control cycle are shown in FIGS. 3A to 3F. FIGS. 3A, 3B, 3C and 3D all connect the first and second water softeners (3A) and (3B) in a flow-through state.
The aspect in which the second water softener (3C) is connected to the flow path in the regeneration state is shown. In this case, the raw water of the raw water supply source (1) is
A), open valve (14A), first control valve (7A) in first water softener (3A), first water softener (3A) through first flow path port (5A) And the water is treated with water, and the second control port (6A), the second control valve (8A), the annular connection line (9A), the first control valve (7B) in the second water softener (3B) ), 1st
The water reaches the second water softener (3B) through the flow path port (5B), and is further softened. The soft water subjected to the ion exchange treatment in this way is supplied to the equipment using soft water through the second flow path port (6B), the second control valve (8B), the open valve (15B) and the soft water supply line (11B). It is led to (2).
On the other hand, in this state, the third water softener (3C)
In the following four modes, the channels are connected in the regeneration state. In this case, in FIG. 3A, the third water softener (3C) in the regenerated state is backwashed by the raw water from the raw water supply source (1). In this case, the raw water of the raw water supply source (1) is supplied to a raw water supply line (18) to the regeneration medium supply source (4), a three-way switching control valve (19), a line (13C), and a third water softener ( 3C) the second control valve (8
C), a third water softener (3
C), the inside of the water softener (3C) is backwashed, and the first flow path port (5C), the first control valve (7C), the line (12C), and the open valve (21) are removed. Drained through the drain. In FIG. 3B, the third water softener (3C) in the regenerating state is connected to the raw water supply source (1) and the regeneration medium supply source (4) in a flow path. With this, ion exchange regeneration is simultaneously performed. In this case, the raw water from the raw water supply source (1) is supplied from the raw water supply line (18), a three-way switching control valve (19), an ejector (22), a line (12C), and a third water softener (3C).
Is guided into the third water softener (3C) via the first control valve (7C) and the first flow path port (5C). On the other hand, the reproduction medium of the reproduction medium supply source (4) joins the raw water from the raw water supply source (1) at the ejector (22) via the line (12) and the valve (23) in an open state. To the third water softener (3C), and ion-exchange regeneration inside the water softener (3C).
C), second control valve (8C), line (13
C), is discharged to the drain via the valve (16) in the open state. In FIG. 3C, the third water softener (3C) in the regenerating state is connected to the raw water supply source (1) and is rapidly washed. In this case, the raw water supply source (1) is flow-connected to the reproduction medium supply source (4), and the reproduction medium supply source (4)
Refill water for In FIG. 3D, the third water softener (3C) is in a standby state with all the flow paths disconnected.

Next, FIG. 3E shows an embodiment in which the second and third water softeners (3B) and (3C) are in a water-flowing state, and the first water softener (3A) is in a regeneration standby state. Show,
FIG. 3F shows an embodiment in which the third and first water softeners (3C) and (3A) are in a water-flowing state, and the second water softener (3B) is in a regeneration standby state. It is. The flow of the fluid in each case is as shown by the arrows in the figure.

On the other hand, in the present invention, a hardness leak alarm (24) can be attached to the outlet and the end side of each water softener.
Further, in the present invention, in the description of the specific embodiment, the detailed description is based on the configuration combining three water softeners, but the configuration of the combination of a plurality of water softeners other than three is also changed at all. , And fall within the scope of the present invention.

[Effects of the Invention] The raw water softening treatment apparatus of the present invention having the above-described configuration includes at least two water softeners between a raw water supply source and equipment using soft water such as a boiler can. Is connected in series to the water flow in series, and at least one of the remaining units is connected in the flow path to the regeneration state and the standby state, and the rotation is controlled sequentially. Highly efficient raw water softening is possible, and it can be said that this is extremely effective in this regard. Further, in the apparatus of the present invention, (1). Because of the flow rate regeneration, waste of the reproduction medium and hardness leakage can be prevented. (2). By installing a hardness leak alarm at the outlet and at the end of each water softener, in the event of a hardness leak, it can be recombined to the next rotation, and finally operated with one water softener it can.
(3). Because of the circular connection rotation control, the load on each water softener becomes uniform. (4). If the reproducing medium supply tank is of a circulation type, it can be said that it is extremely effective in that the supply of the reproducing medium becomes free.

[Brief description of the drawings]

FIGS. 1A, 1B, and 1C are schematic principle diagrams for explaining the basic configuration of a raw water softening apparatus according to the present invention and the water passage and regeneration modes of each water softener, and FIG. FIG. 3A to FIG. 3F are schematic flow charts showing states of fluid flows in a water passage mode and a regeneration mode of each water softener in a specific embodiment of the present invention. (1) Raw water supply source (2) Equipment using soft water (3A) to (3C) Water softener (4) Regeneration medium supply source (5A) to (5C) First passage port (6A)-(6C) ... second flow path port (7A)-(7C) ... first control valve (8A)-(8C) ... second control valve (9A)-(9C) ... … Circular connection line (10A) to (10C)… raw water supply line (11A) to (11C)… Soft water supply line (12A) to (12C)… reproduction medium supply line (13A) to (13C)… Drain line (14A)-(14C) ... Raw water supply on-off valve (15A)-(15C) ... Soft water supply on-off valve (16A)-(16C) ... Regeneration medium supply on-off valve (17) ... Controller

Claims (1)

(57) [Claims] 1. A water softener containing an ion exchange resin is connected to a water supply line between a raw water supply source and equipment using soft water,
A water softening treatment system for passing raw water through the water softener to soften the raw water and supply the water to equipment using soft water; and supplying a regeneration medium for regenerating the ion exchange resin degraded by the softening of the raw water. A raw water softening treatment apparatus including a system, comprising: a first and a second flow path port; and a control valve connected to each of the flow path ports, wherein the first and second flow path ports and each control valve are provided. A plurality of water softeners annularly connected to each other via a raw water supply, wherein each of the water softeners connects a control valve on each first flow path port side and the raw water supply source via a raw water supply opening / closing valve, respectively; A soft water supply line that connects a control valve on each second flow path port side of the water softener and the soft water use device via a soft water supply opening / closing valve, respectively, A regeneration medium supply line that connects a control valve on the first flow path port side and a regeneration medium supply source in each water softener via a regeneration medium supply opening / closing valve, respectively; A drain line for connecting between the control valve and the drain on the flow path opening side, and switching between the respective lines to connect at least two of the plurality of water softeners between the raw water supply source and the equipment using soft water. Flow path connection state where water is connected in series through two water softeners,
A raw water softening treatment apparatus comprising: a controller for sequentially controlling rotation of at least one of the remaining water softeners to a flow path connecting the water softener to a regeneration medium supply line.