KR20200109318A - Marine seawater desalination device - Google Patents

Abstract

It can be easily installed in a desired place on the ship, and in the installed place, it is possible to take a shower using at least hot water. A soft water generation unit that softens the drinking water through a water pump on the downstream side of the drinking water storage unit, installed in a movable housing through either a hand-push bogie or caster, and the soft water generation unit A soft water supply line that sends soft water to the first outlet through a directional control valve, and a hot water supply line for a shower that has a heating part that uses soft water as hot water and sends the hot water from this heating part to the second outlet, respectively, is installed. The desalination apparatus relates to a marine seawater desalination apparatus further comprising a control unit for controlling each of a high pressure pump, a water feed pump, and a directional control valve.

Description

Marine seawater desalination device

The present invention relates to a seawater desalination apparatus for ships.

An object of the invention of Patent Document 1 is to provide a marine seawater desalination device capable of reducing the cost and weight, and reducing the installation space. The means for solving this problem is "a first conveying pipe in which one end is connected to the downstream side of the medium-pressure type module 16 and the other end is connected to the household equipment ( 18), the second conveying pipe 20 connected to the first conveying pipe and the water intake pipe 12 through direction control valves 36 and 38, respectively, and the sub tank 22 built in the second conveying pipe. , A third conveying pipe 24 connected to the first conveying pipe through a direction control valve 40, and a drinking water tank 26 connected to the third conveying pipe. It is formed so as to guide the water that has passed through the module once to the household equipment, and guide the water that has passed through the module twice to the drinking water tank” (symbol of Patent Document 1).

Therefore, according to the invention of Patent Document 1, when the treated water is used for a shower or bath, the so-called primary treated water flowing out from the module to the first conveying pipe can be directly guided to the household equipment. On the other hand, when the water is used for drinking, the primary treated water flowing out from the module to the first transfer pipe is guided to the sub tank, and the primary treated water remaining on the upstream side of the drinking water tank is guided to the sub tank. After that, the secondary treated water flowing out of the module from the sub tank is guided to the drinking water tank, and drinking water can be obtained from the drinking water tank 26.

The marine seawater desalination apparatus of the above configuration can be reduced in cost by using a single and medium-pressure type module (reverse osmosis membrane means). As a result, there are advantages such as being able to reduce weight and reduce the installation space.

However, the invention of Patent Literature 1 is that the marine seawater desalination device is ``unclear where to install'', ``the point that the reverse osmosis membrane means is single'', ``the point that seawater cannot be softened'', There are problems such as "does not have a heating part that heats the treated water", "if it has a heating part, it is unclear where to install it", and "the reverse osmosis membrane means cannot be automatically cleaned". , Not only the acquisition of drinking water, but also the ability to take a shower using at least hot water, the ability to soften the treated water, the use of the reverse osmosis membrane for a long time, the convenience of use, and the need for maintenance as much as possible. There were some improvements to be made in terms of things, etc.

Japanese Patent Laid-Open Publication No. Hei 5-15877

The main problem of the present invention is that in view of the problem of Patent Document 1, it can be easily installed at a desired location on a ship, and at the location where it is installed, not only drinking water can be obtained, but also hot water can be used to shower. In addition, the treated water is softened and delicious drinking water can be obtained. The secondary object of the present invention is to be able to use the reverse osmosis membrane means for a long period of time, to be convenient to use, to enable automatic low tension of the reverse osmosis membrane means, to make maintenance unnecessary as much as possible.

The above and other problems and novel features of the present invention will become more fully apparent when the following description is read in contrast with the accompanying drawings. However, the drawings are for explanation only, and do not limit the technical scope of the present invention.

The marine seawater desalination apparatus of the present invention is the first water purification unit that filters the seawater through a water intake pump that pumps seawater from the ship, and the primary treated water treated by the first water purification unit is desalination through a high pressure pump. A marine seawater desalination apparatus comprising a freshwater generation unit and a drinking water storage unit for collecting secondary treated water made of fresh water in the freshwater generation unit as drinking water, wherein the seawater desalination unit is pushed by hand ( A soft water generating unit installed in a housing that is movable through either a caster or a caster, and softening the drinking water through a water supply pump on the downstream side of the drinking water storage unit, and a direction control valve in the soft water generating unit A soft water supply line that sends soft water to the first outlet through the water, and a hot water supply line for a shower that has a heating part that uses soft water as hot water and sends the hot water from the heating part to the second outlet, and the seawater desalination device Is characterized in that it has a control unit that controls each of the high pressure pump, the water feed pump, and the directional control valve.

In the above configuration, the housing comprises a case body having a high-pressure pump and a fresh water generation unit, a drinking water storage unit, a soft water generation unit, and a heating unit, and a cover body formed to be opened and closed on the case body, and reverse penetration of the fresh water generation unit It is characterized in that it has at least two membrane means. Further, an operation button and a display lamp are respectively provided on the upper surface of the cover body, and on the rear wall side of the case body, the reverse osmosis membrane means of the fresh water generating unit are provided so as to substantially overlap in the vertical direction. In addition, a switching valve for changing the direction of the secondary treated water is installed between the fresh water generating unit and the drinking water storage unit, and at one outlet of the switching valve, the drinking water treated by the fresh water generating unit is supplied to the drinking water storage unit. A supply pipe to be sent is connected, and a discharge pipe capable of discharging the washing water flowing out of the fresh water generating unit is connected to an outlet in the other direction of the switching valve. In addition, a hot water faucet is installed at the second outlet of the shower hot water supply line, and a base end of a flexible hose having a shower head is integrally mounted on the hot water faucet. . In addition, a part of the pipe protrudes from one wall of the case body with a gap so that a part of the shower head or the flexible hose can be hung. Further, a storage battery is provided in the housing, and the storage battery is characterized in that it acquires electricity from at least one of a solar cell module or a generator installed on a ship. In addition, a reverse osmosis membrane cleaning treatment unit capable of storing drinking water as washing water is connected to the fresh water generation unit, and at a predetermined or required time, a plurality of reverse osmosis membrane means of the fresh water generation unit, a control valve and a washing pump are provided. It is characterized by automatically cleaning through. In addition, it is characterized in that a final water treatment unit is provided on the downstream side of the soft water generation unit.

Here, "approximately overlapping" means that a plurality of reverse osmosis membrane means are provided in parallel in a transverse or oblique direction, and one reverse osmosis membrane means is in close contact with the other reverse osmosis membrane means or has a gap. It refers to what is installed.

(a) In the invention described in claim 1, the seawater desalination device is installed in a movable housing through either a hand-push cart or a caster, and water is softened through a feed water pump on the downstream side of the drinking water reservoir. For a shower, which has a soft water generator, a soft water supply line that sends soft water to the first outlet through a direction control valve to the soft water generator, and a heating part that uses soft water as hot water, and sends hot water from this heating part to the second outlet. Since each hot water supply line is provided, the seawater desalination device can be easily installed at a desired location on the ship, and at the location where it is installed, not only drinking water can be obtained, but also hot water can be used for bathing. In addition, since it has a soft water generating part, it is possible to soften the drinking water stored in the drinking water storage part and obtain delicious water.

(b) In the invention described in claim 2, the housing comprises a case body in which a high-pressure pump and a fresh water generation unit, a drinking water storage unit, a soft water generation unit, and a heating unit are formed, and a cover body formed to be openable and closed on the case body, and the fresh water is generated Since there are at least two negative reverse osmosis membrane means, the reverse osmosis membrane means can be used for a long time.

(c) In the invention according to claim 3, an operation button and an indicator lamp are respectively provided on the upper surface of the cover body, and on the outer wall surface of the rear wall of the case body, the reverse osmosis membrane means of the fresh water generation unit is vertically arranged. Since it is installed so as to be substantially overlapped, it is easy to use, and the installation space can be reduced by compacting the device.

(d) In the invention described in claim 4, a switching valve for changing the direction of the secondary treated water is provided between the freshwater generating unit and the drinking water storage unit, and at one outlet of the switching valve, the drinking water treated by the freshwater generating unit is supplied. A supply pipe to the drinking water storage unit is connected, and a discharge pipe capable of discharging the washing water flowing from the fresh water generation unit is connected to the outlet in the other direction of the switching valve, so that the reverse osmosis membrane means of the fresh water generation unit can be cleaned. have.

(e) In the invention described in claim 5, a hot water faucet is installed at the second outlet of the hot water supply line for shower, and the base end of a flexible hose having a shower head is integrally attached to the hot water faucet. The effect of claim 1 can be reliably achieved.

(f) In the invention described in claim 6, a part of the pipe protrudes from one wall of the case body with a gap so that a part of the shower head or the flexible hose can be hung, so it is very easy to use.

(g) In the invention according to claim 7, a storage battery is provided in the housing, and this storage battery is excellent in practicality because it acquires electricity from at least either a solar cell module or a generator installed on a ship.

(h) In the invention described in claim 8, a reverse osmosis membrane cleaning treatment unit capable of storing drinking water as washing water is connected to the fresh water generation unit, and a plurality of reverse osmosis membrane means of the fresh water generation unit are provided at a predetermined or required time. , Because it is automatically cleaned through the control valve and the cleaning pump, it is possible to enable automatic low tension of the reverse osmosis membrane means, and also, it is possible to eliminate maintenance as much as possible.

(i) In the invention described in claim 9, since the last water treatment unit is formed on the downstream side of the soft water generation unit, it is possible to obtain "delicious" and "complete water" as much as possible.

1 to 3 are respective explanatory diagrams showing a first embodiment of the present invention. 4 is an explanatory diagram of a second embodiment of the present invention.
Fig. 1 is a schematic explanatory diagram showing the entire apparatus in blocks and the like.
[Fig. 2] It is an explanatory view of the external configuration of the device as viewed from a perspective.
It is a schematic explanatory drawing which opened the cover body of an apparatus.
Fig. 4 is an explanatory diagram of a second embodiment to which another configuration is added.

」자형의 커버체(1b)로 이루어진다.First, a structural member of the marine seawater desalination apparatus X according to the first embodiment of the present invention will be described with reference to FIGS. 1 to 3. Reference numeral 1 denotes a housing having a plurality of (e.g., 4) material casters 2 at four corners of the lower surface of the horizontally long rectangular bottom wall, and this housing 1 is, for example, to be described later. The high-pressure pump 5 and the fresh water generating unit 6, the drinking water storage unit 9, the soft water generating unit 12 and the heating unit 15 are formed inside and outside the case body 1a of a horizontally elongated shape, and this case Cross section formed to be open and close at the upper end of the main body 「

It consists of a "shaped cover body 1b.

The reverse osmosis membrane means of the fresh water generating unit 6 has at least two high-pressure tanks and RO membranes each built into these high-pressure tanks, and each of the high-pressure tanks is provided substantially in parallel. In other words, in the embodiment, a plurality of operation buttons 21 and display lamps 22 are respectively provided in the horizontal direction on the upper surface of the cover body 1b and in the substantially central portion of the slope wall in the embodiment. On the other hand, the reverse osmosis membrane means 6a and 6b constituting the fresh water generating part 6 are arranged so as to substantially overlap in the vertical direction on the outer wall surface of the rear wall of the case body 1b.

Next, reference numeral 3 denotes a water intake pump that pumps seawater, and the drive of this water intake pump 3 is controlled by a control signal from a control unit 18 connected to a storage battery 17 to be described later. Preferably, the water intake pump 3 is driven through a converter 20 that converts alternating current sent from the control unit 18 having an inverter 19 into direct current.

Next, reference numeral 4 is the first water treatment unit connected to the water intake pump 3 through an unnumbered water intake pipe, and this first water treatment unit 4 has a function as a filter to remove impurities from seawater. . In the embodiment, the first treatment tank, granular activated carbon, fine stones, sand, and the like filled in the first treatment tank are used.

Next, reference numeral 5 denotes a high-pressure pump that connects to the first water purification unit 4 and also pressurizes the primary treated water filtered by the first water purification unit 4. The high pressure pump 5 is driven by a control signal from the control unit 18. Preferably, the high pressure pump 5 is driven by alternating current from the inverter 19 described above.

Next, reference numeral 6 denotes a freshwater generating unit connected to the high pressure pump 5 and having two reverse osmosis membrane means 6a and 6b in the left and right or up and down directions in the embodiment, and this fresh water generating unit 6 is The primary treated water (seawater and hard water) pumped from the high-pressure pump 5 is selectively used as pure or fresh water by using the two reverse osmosis membrane means 6a and 6b. This fresh water corresponds to secondary treated water as drinking water in the embodiment.

Next, reference numeral 7 is installed between the fresh water generation unit 6 and the drinking water storage unit 9 equipped with a single or multiple water level sensors S, and also changes the direction of the secondary treated water (potable water). It is a switching valve. One outlet of this switching valve 7 is connected to a supply pipe 8 for sending the drinking water treated by the fresh water generating unit 6 to the drinking water storage unit 9, while the other direction outlet of the switching valve 7 A discharge pipe 10 for discharging the washing water flowing out of the fresh water generating unit 6 is connected to.

Regarding the latter washing water, when washing the reverse osmosis membrane means 6a, 6b, for example, the free end of the washing hose connected to the washing pump disposed outside the case body 1a is connected to the primary side of the high-pressure tank. It is connected to the (suction port) through a material joint, and further, using a bubble supply means (ejector), the washing water is fed together with the bubbles into the high-pressure tank. At this time, the switching valve 7 is switched to an outlet in the other direction, and the washing water is discharged from the discharge pipe 10 through the switching valve 7.

In addition, the high-pressure tank is cleaned automatically using secondary treated water by installing a single or multiple control valves in a return pipe connected to the main pipe, and controlling the control valves by the control unit 18. You may configure it so that it can do (refer 2nd embodiment, FIG. 4).

Next, reference numeral 11 denotes a water supply pump installed in the downstream pipe of the drinking water storage unit 9, and this water supply pump 11 transfers the drinking water in the drinking water storage unit 9 to the soft water generation unit 12 on the downstream side. I'm pressured. Like the high-pressure pump 5, this water feed pump 11 is also controlled by a control signal from the control unit, and is driven by alternating current from the inverter 19.

The soft water generation unit 12 uses the drinking water sent from the water supply pump 11 as soft water. Since the soft water generating unit 12 has a granular or granular ion exchange resin built in the regeneration tank, in a preferred embodiment, the salt that can be added and the drinking water sent from the water supply pump 11 are As a result, regeneration water (salt water) is generated in the regeneration tank, and the ion exchange resin is regenerated (salted state: washed) for a required time (eg, 40 minutes). And, although not shown in particular, the treated water containing the regenerated hardness component is discharged to the outside of the housing 1 using the drinking water in the drinking water storage unit 9.

Next, reference numeral 13 is a directional control valve (3-way selector valve) connected to the soft water generating unit 12, and one outlet of the directional control valve 13 sends soft water to the first outlet 14. A soft water supply line (pipe) L1 is provided, and on the other hand, at the other outlet of this directional control valve 13, a heating unit 15 provided with a heater using soft water as hot water is provided. Hot water supply lines (pipes) L2 and L2 for sending hot water from the heating unit 15 to the plurality of second outlet units 16 and 16, respectively, are provided. The heating of the heating unit 15 is controlled by the control unit 18, and the hot water of the heating unit 15 is controlled to be at an appropriate temperature (for example, 40° C.).

However, the base end of the flexible hose 24 having the shower head 24a is integrally attached to one of the second outlet 16 having a hot water faucet (stopper member). In addition, hot water coming out from the second outlet 16 having the other hot water faucet (stopper member) can be used for the bathtub 25 provided outside the housing 1.

And, in the embodiment, a part of the pipe is substantially downward U-shaped or downward in a state having a gap from one wall of the case body 1a so that a part of the shower head 24a or the flexible hose 24 can be hung. It protrudes in a U-shape (see Fig. 2).

By the way, although not shown in FIG. 1, the last water purification part 36 is formed in the downstream side of the said soft water generating part 15, preferably soft water supply line L1, and this last water purification part 36 is , For example, a first water purification member (activated carbon for removing organic matter, coral for generating mineral water, elvan stone, granular titanium, tourmaline ore, etc.) installed on the downstream side of the above-described directional control valve (3-way switching valve) 13 ), and a second water purification member (hollow fiber membrane for removing organic matter) connected thereto.

Reference numeral 17 denotes a large-capacity storage battery, and this storage battery 17 is suitably installed in the housing 1 and acquires electricity from at least either a solar cell module or a generator installed on the ship.

In the above configuration, the marine seawater desalination device (X) is installed in a desired place, such as a deck, near a bathtub, through a hand-push cart or caster (not shown). Accordingly, the delicious drinking water obtained from the marine seawater desalination device X is put into a transportable drinking water tank or container. On the other hand, the hot water from the marine seawater desalination device X can be bathed by a sailor or the like using the shower head 24a. In the embodiment, the drinking water softened by the soft water generating unit 12 is heated by the heating unit 15 to a proper temperature.

That is, the drinking water softened by the soft water generating unit 12 is used as (a) drinking water and (b) hot water. In either case, drinking water is used in two pipings through the drinking water storage unit 9 and the soft water generation unit 12, respectively.

Here, as described in Fig. 1 of Patent Literature 1, the features of the present invention will be described, ``at least the first water treatment unit 4 that filters this seawater through a water intake pump 3 that pumps seawater from a ship. Wow, a freshwater generation unit 6 that desalizes the primary treated water treated by this first water purification unit through a high pressure pump 5, and drinking water that collects secondary treated water made of fresh water in the freshwater generation unit as drinking water. A marine seawater desalination device having a reservoir 9 is known.

The present invention, on the premise of the above known invention, is installed in a housing (1) movable through either a hand-push cart or caster (2), and the drinking water reservoir (9) Soft water generation unit 12 that softens drinking water through a water feed pump 11 on the downstream side, and soft water supplying the soft water to the first outlet having a stopper through a direction control valve 13 to the soft water generation unit At least one hot water supply line (L2), which has a line (L1) and a heating unit (15) using soft water as hot water, and sends the hot water from the heating unit to a second outlet unit having a stopper, is installed, respectively, The desalination apparatus X further includes a control unit 18 that controls the high pressure pump 5, the water feed pump 11, and the directional control valve 13, respectively.

However, when the ion exchange resin is regenerated (washed) in the soft water generating unit 12, industrial salt having a relatively large particle size can be added, and the salt and drinking water storage unit 9 that can be added are supplied to the downstream side. Regeneration water (saline water) is generated by drinking water sent from the pump 11, and the ion exchange resin can be regenerated (washed) in the regeneration tank. Then, after regenerating the ion exchange resin of the soft water generating unit, the drinking water stored in the drinking water storage unit 9 can be used again for (a) delicious drinking water and (b) hot water, respectively, as described above.

Finally, FIG. 4 is an explanatory view of the second embodiment in which the configuration of the "reverse osmosis membrane cleaning processing unit 30" is added to the configuration of the first embodiment. The problem of this second embodiment is to enable automatic low tensioning of the plurality of reverse osmosis membrane means 6a and 6b constituting the fresh water generation unit 6.

Therefore, if the right side of the washing liquid storage tank 31 shown by the block in the upper part of Fig. 4 is the inlet side (primary) for washing water, the left side of the washing liquid storage tank 31 is washing water (potable water is used in the embodiment). ) Is the exit side (secondary).

Therefore, reference numeral b1 is a control valve on the outlet side of the washing water. Between the control valve (b1) and the cleaning liquid storage tank (31), a cleaning pump (32) that is driven and controlled by a control unit (18) at a predetermined or required time is installed, and the two high-pressure containers (T1, T1) are When either of them reaches the cleaning time, the cleaning pump 32 is driven for a predetermined time. As a result, the washing water of the washing liquid storage tank 31 is sent to the high-pressure container T1.

In Fig. 4, a number of control valves are appropriately installed at locations, but here, for convenience, the control valve on the inlet side of the primary treated water installed on the high-pressure pump 5 side is set to "a", while the high pressure The control valve on the side that sends the drinking water that has passed through the RO membrane of the container T1 to the drinking water storage portion 9 side is identified as "b".

The control valves a and b are selectively used based on a control program and a timer stored in the storage unit of the control unit 18. Therefore, when washing any one of the plurality of reverse osmosis membrane means 6a and 6b, the other reverse osmosis membrane means can be used as it is. The washing water after washing the reverse osmosis membrane means 6a and 6b is discharged from the discharge pipe 7 to the outside of the housing 1 through the switching valve 7, for example.

[Industrial availability]

The present invention is mounted on a ship and can be used as an apparatus for desalination of seawater.

X: Marine seawater desalination device
1: housing
2: material caster
3: water intake pump
4: First water purification unit
5: high pressure pump
6: freshwater generation unit
6a, 6b: reverse osmosis membrane means
7: switching valve
8: supply pipe
9: drinking water reservoir
10: discharge pipe
11: water supply pump
12: training generation unit
13: Directional control valve
14: first exit
15: heating part
16: second exit
17: storage battery
18: control unit
19: inverter
20: converter
21: operation button
22: indicator lamp
24: flexible hose
24a: shower head
25: bathtub
30: reverse osmosis membrane cleaning treatment unit
31: washing liquid storage tank
32: washing pump
36: last water purification unit
a, b: control valve
L1: Soft water supply line (piping)
L2: Hot water supply line (pipe)

Claims (9)

The first water treatment unit for filtering the sea water through a water intake pump pumping the sea water from the ship; A fresh water generator for desalination of the primary treated water treated by the first water treatment unit through a high pressure pump; And In the seawater desalination apparatus for ships comprising a drinking water storage unit (貯留部) for collecting secondary treated water made of fresh water in the fresh water generation unit as drinking water,
The seawater desalination device is installed in a movable housing through either a hand-push cart or a caster, and the drinking water is softened through a water pump on the downstream side of the drinking water reservoir. ), a soft water supply line that sends soft water to the first outlet through a direction control valve to the soft water generation part, and a heating part that uses soft water as hot water, and sends hot water from the heating part to the second outlet. Each shower hot water supply line is installed,
The seawater desalination device further comprises a control unit for respectively controlling the high-pressure pump, the water supply pump, and the directional control valve. The method of claim 1,
The housing includes a case body having a high-pressure pump and a fresh water generation unit, a drinking water storage unit, a soft water generation unit, and a heating unit, and a cover body formed to be opened and closed on the case body, and the reverse osmosis membrane means of the fresh water generation unit includes at least It has two seawater desalination devices for ships. The method of claim 2,
An operation button and an indication lamp are respectively provided on the upper surface of the cover body, and on the rear wall side of the case body, the reverse osmosis membrane means of the fresh water generating unit are provided so as to substantially overlap in the vertical direction. The method of claim 1,
A switching valve for changing the direction of secondary treated water is installed between the fresh water generating unit and the drinking water storage unit, and at one outlet of the switching valve, a supply pipe for sending the drinking water treated by the fresh water generating unit to the drinking water storage unit Is connected, and a discharge pipe capable of discharging the washing water flowing out of the fresh water generating unit is connected to an outlet in the other direction of the switching valve. The method of claim 1,
A hot water faucet is installed at the second outlet of the shower hot water supply line, and a base end of a flexible hose having a shower head is integrally mounted on the hot water faucet. . The method of claim 6,
A seawater desalination apparatus for a ship in which a part of a pipe protrudes from one wall of the case body with a gap so as to hang a part of the shower head or the flexible hose. The method of claim 1,
A storage battery is installed in the housing, and the storage battery obtains electricity from at least one of a solar cell module or a generator installed on a ship. The method of claim 1,
A reverse osmosis membrane cleaning treatment unit capable of storing drinking water as washing water is connected to the fresh water generation unit, and at a predetermined or required time, a plurality of reverse osmosis membrane means of the fresh water generation unit are automatically provided through a control valve and a washing pump. Seawater desalination device for ships to be washed with. The method of claim 1,
A seawater desalination apparatus for ships, wherein a final water treatment unit is formed on a downstream side of the soft water generation unit.

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