JPH03196889A - Simplified fresh water generator - Google Patents

Abstract

PURPOSE:To obtain this simplified fresh water generator which can be utilized even in a miniature ship and made small in the installation place by communicating the condensation chamber with the upper part of an evaporation chamber and providing a pump which evacuates the insides of both chambers and also introduces seawater into the evaporation chamber. CONSTITUTION:The simplified fresh water generator is constituted by providing both an evaporation chamber 2 heated by solar heat, etc., from the outside and a condensation chamber 3 cooled by the outside air, side by side, and also communicating the chamber 3 with the upper part of the evaporation chamber 2 and providing a pump 11 which is driven by wave force or the driving force of a ship in order to evacuate the insides of both chambers and also to introduce seawater into the chamber 2 and providing a fresh water tank 16 receiving fresh water condensed in the chamber 3. When a miniature ship is floated on the sea, the pump 11 is actuated to evacuate the chambers 2, 3 and to introduce seawater into the chamber 2. The chamber 2 is evacuated and therefore water is actively evaporated and steam is introduced into the chamber 3 and condensed and becomes fresh water. Then fresh water is allowed to drop.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a simple water generator that can be used to obtain fresh water in small vessels such as yachts and motorboats.

[Conventional technology]

Ships sailing on the sea need to secure clean water for drinking and other purposes necessary for the daily lives of crew and passengers. Large ships can easily obtain power sources such as electricity and heat sources, so
Large water dispensers are used that evaporate seawater to produce fresh water using heat sources such as hot water pumps, air extraction pumps, brine pumps, and even hot water for cooling the main engine.

[Problem to be solved by the invention]

However, in small vessels such as yachts and motorboats, it is difficult to obtain power and heat sources such as electricity, and it is also difficult to secure a place to install a water dispenser.

The present invention has been made in view of the above-mentioned facts, and aims to provide a small water generator that can be used even in small ships without a power source or heat source, and can be installed in a small space.

[Means to solve the problem]

In order to achieve the above object, the present invention provides an evaporation chamber that is heated from the outside by solar heat or the like and a condensation chamber that is cooled by outside air, and also communicates the upper part of the evaporation chamber with the condensation chamber. A pump driven by wave power or ship propulsion is provided to reduce the pressure in both chambers and send seawater into the evaporation chamber, and a fresh water tank is provided to receive the condensed fresh water in the condensation chamber. .

[Function] When a small vessel such as a yacht or motorboat is at sea,
The pump works by wave force or propulsion to reduce the pressure in the evaporation chamber and condensation chamber, and at the same time pumps seawater into the evaporation chamber. In the evaporation chamber, the pressure is reduced, which lowers the boiling point of the water, and the water is heated by solar heat, allowing water to evaporate actively. The vapor evaporated in this way is led to the condensation chamber and condenses on contact with the walls of the condensation chamber, collision walls, etc. that are cooled by outside air.
It becomes clear water and drips downward. This fresh water is stored in a fresh water tank and used for drinks, etc.

Heating in the evaporation chamber mainly uses solar heat, cooling in the condensation chamber radiates heat to the atmosphere, and the pump is driven by wave power or propulsion, so it is not necessary to use a generator or engine as a power source or heat source on the ship. There is no need to stack it at all, and it can be made smaller.

〔Example] Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 shows the configuration of a small water generator of the present invention. In the figure, A is the hull, and 1 is a container provided on the deck of the hull. The left half of this container is an evaporation chamber 2, the right half is a condensation chamber 3, and a partition wall 4 is provided in the middle. The evaporation chamber 2 and the condensation chamber 3 communicate through an upper passage 5. Note that the partition wall 4 is preferably made of a heat insulating material.

A cover 6 made of transparent glass is attached to the outside of the side of the container 1 where the evaporation chamber 2 is formed so that solar energy can be taken in, and the outside of the evaporation chamber 2 is a cover that can selectively absorb infrared rays from the sunlight. Absorbent film 1a is attached. A sunshade 7 made of an opaque material is connected to the right side of the cover 6 to prevent sunlight from hitting the condensation chamber 3. however,
This awning 7 only covers the upper part of the condensing chamber 3.
The outside of the condensing chamber 3 is easily exposed to the wind from outside, and a large number of cooling fins 1b are provided upright on the outside of the condensing chamber 3. Further, a collision wall 3a is provided inside the condensation chamber as necessary so that the steam collides with the steam and is easily cooled. The area from the boundary between the cover 6 and the sunshade 7 to the boundary between the evaporation chamber 2 and the condensation chamber 3 is insulated by a heat insulating member 8. That is, as can be seen from the above structure, the evaporation chamber 2 is easily heated, and the condensation chamber 3 is easily cooled.

A seawater inlet pipe 9 is connected to the bottom of the evaporation chamber 2 via a screwed check valve 10, and its tip reaches into the seawater. This seawater introduction pipe 9 is for the evaporation chamber 2 to suck in seawater whose pressure has been reduced by the pump 11. The reason why the screw-fastened check valve lO was used is that when the water supply device is not in use, such as when the ship is at anchor in a port, it is kept closed by tightening the screw so as not to inhale unnecessary seawater. On the other hand, a large number of capillary tubes 2a are arranged in the evaporation chamber 2 to facilitate sucking up seawater accumulated in the chamber.

By the way, the above-mentioned pump 11 is a reciprocating pump that utilizes wave power and is equipped with a diaphragm or bellows Ilb attached to a float 11a that moves up and down as the water level of the sea surface a changes, or a reciprocating pump that uses wave power to move up and down as the water level of the sea surface a changes. This is an ejector pump that is operated by the pump, and does not require any special power such as electricity. Additionally, since there is no motor part, it has the advantage of being compactly manufactured.

An air bleed line 12 is connected to the pump 11, and this air bleed line 12 communicates with the condensing chamber 3 via a check valve 13 to bleed air from the condensing chamber 3 and the evaporation chamber 2.

The bleed air is discharged to the outside through an exhaust line 14 on the opposite side of the pump 11 and through a check valve 15.

Reference numeral 16 denotes a fresh water tank that receives fresh water accumulated in the condensing chamber 3 via a screw-fastened check valve 17.

Next, the operation of this embodiment will be explained.

If there are waves around the hull A, the sea level a rises and falls and the pump is driven, and if the ship is sailing, the ejector pump is driven to bleed air from the evaporation chamber 2 and the condensation chamber 3 to reduce the pressure. . Due to this negative pressure, the evaporation chamber 2 sucks seawater from the seawater introduction pipe 9 via the screw-fastened check valve lO. Since the pressure inside the evaporation chamber 2 is reduced, the boiling point of seawater within the evaporation chamber 2 is lowered. The evaporation chamber 2 is heated by receiving solar heat from the direction of the arrow mark B through the selective absorption film 1a on the outside, and the seawater is actively evaporated due to the synergistic effect with the lowering of the boiling point. Seawater is sucked up by the action of the capillary tube 2a in the evaporator 2, and evaporates more actively due to the increased surface area.

The water vapor thus evaporated passes through the communication path 5 to the condensation chamber 3.
Go inside. In the condensation chamber 3, the fins 1b are cooled by wind hitting them as indicated by arrow C, and the water vapor hits the walls in the condensation chamber 3 and the collision wall 3a and condenses. The water vapor condensed in this way becomes fresh water and drips below the condensation chamber 3. The fresh water dropped in this way is transferred to the fresh water tank 1 through the screw-fastened check valve 17.
6. Collect it and use it for drinks etc. In addition, since sterilization is insufficient because it is distilled under reduced pressure, it is preferable to boil it before serving it for drinking purposes.

FIG. 2 shows another embodiment of the invention. This embodiment has a container 18 made of glass and cooling fins 19a on the outside.
The container 18 is connected to a condensing chamber 19 which has a collision wall 19b erected therein, and is connected via a heat insulating material 8, and a narrow tube forming an evaporation chamber 20 is provided in the container 18, and around it a selective absorption chamber 19 is connected. A membrane 20a is attached, the tip of which communicates with the condensation chamber 19. Further, above the condensing chamber 19, a sunshade 7 similar to that of the previous embodiment is provided. Other configurations are the first
This is similar to the embodiment shown in the figure.

According to this embodiment, since the evaporation chamber 20 is small and the selective absorption membrane 20a is wrapped around the entire periphery, the temperature inside the evaporation chamber easily becomes high, and fresh water can be effectively produced.

Note that the pump 11 may be used separately for extracting air and for pumping up seawater. Furthermore, if it is difficult to provide the fresh water tank 16 below the condensing chamber, it is also possible to provide a configuration in which one more pump is provided to pump up the water.

With the water generator of the present invention, distilled water can be obtained, so
It is not limited to producing fresh water from seawater, but can also be used to produce fresh water from freshwater in lakes, rivers, etc. Nor is it limited to use on ships.

[Effects of the Invention] As explained above, the simple water generator of the present invention uses natural energy such as wave power and radiant heat from the sun as the power source and heat source for driving the pump and heating the evaporation chamber. It can also be used on small vessels without power equipment.

Furthermore, since no power such as a motor is required, the water dispensing device can be made smaller, and there is no need to worry about where to install it even on small ships.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing a simple water generator of the present invention, and FIG. 2 is a block diagram showing another embodiment of the present invention. 2.20...Evaporation chamber, 3,18...Condensation chamber, 4...
- Heat insulation partition, 8... Heat insulation member, 11... Pump, 1
6... Fresh water tank.

Claims (1)

[Claims] An evaporation chamber that is heated by solar heat from the outside and a condensation chamber that is cooled by outside air are installed side by side, and the upper part of the evaporation chamber and the condensation chamber are communicated to reduce the pressure in both chambers and send seawater into the evaporation chamber. 1. A simple water generator, comprising: a pump driven by wave force or propulsion force of a ship; and a fresh water tank for receiving condensed fresh water in the condensing chamber.