JP2010125393A - Water supply system and device for improving water quality using the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a water supply system capable of coping with a large fluctuation of a water level without increasing the resistance to the water flow in a water supply pipe between a water circulating device floating on the water surface and a deep layer of the water area for supplying water, and meanwhile capable of allowing the water circulating device floating on the water surface to rest on the bottom of the water area. <P>SOLUTION: The water supply system includes the water circulating device 1 floating on the water surface and the water supply pipe 2 between the circulating device 1 and the deep layer of a closed water area W for supplying water. The water supply pipe 2 includes a straight pipe 2b which is almost straight and a flexible pipe 2a connecting the upper end of the straight pipe 2b with the water circulating device 1, which is provided with a leg 13 which can stride over the flexible pipe 2a. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a water supply system having a water circulation device floating on a water surface, a water supply pipe for supplying water between the water circulation device and a deep layer of a water area, and a water quality improvement device using the same.

  Conventionally, for example, in closed water areas such as dams, lakes, reservoirs, and reservoirs, there is almost no flow of water, so oxygen is not sufficiently supplied to the water below the surface of the water and to the bottom of the water, resulting in poor water below the middle layer. Oxygen or anoxic conditions appear. For this reason, for example, a technique for purifying water by using an aeration apparatus, a stirring apparatus, an oxygen supply pump, etc., supplying oxygen or the like into the water to float and separate algae in the water is known, Some have been put into practical use (for example, see Patent Documents 1 and 2).

  However, in this method of supplying oxygen or the like into the water to raise the algae in the water together with the bubbles, the algae perform photosynthesis by being exposed to light near the surface of the water and propagate one after another. For this reason, even if the place where the algae gathered on the water surface is collected, the collection efficiency is very poor because the algae continue to increase while being collected.

  Therefore, the present inventor, as described in Patent Document 3, sucks water in the vicinity of the water surface of the closed water area, and sends a water quality improvement device that sends the sucked water to the water through a pipe line from the vicinity of the water surface to the bottom of the water. is suggesting. According to this method, the algae floating in the vicinity of the water surface in the closed water area are sent to water with low temperature and low temperature, so that the activity is reduced and it is difficult for the algae to grow. Can do. Similarly, for example, those disclosed in Patent Documents 4 to 7 are known as forcing the surface water to the deep layer of the closed water area.

JP 2001-340847 A JP 2003-225654 A JP 2005-185970 A Japanese Utility Model Publication No. 2-108800 JP-A-1-315395 International Publication No. 98/02385 Pamphlet JP 2002-205088 A

  By the way, in order to implement the methods as described in Patent Documents 3 to 7, it is necessary to install a water supply pipe for sending water near the water surface sucked by the water circulation device floated on the water surface to the bottom of the water. The height from the bottom of the water to the surface of the water changes because there is water in and out even in the water. Therefore, the water pipe must be able to cope with this change in water level.

  Conventionally, as a method for coping with the change in the water level, as shown in FIG. 5A, a water pipe is constituted by a flexible hose 51 and hung vertically below the water circulation device 50 floating on the water surface. However, when the water level changes greatly, as shown in FIG. 5B, the bent portion of the hose 51 increases and the hose 51 may be damaged.

  Moreover, if the bending part of the hose 51 increases, the resistance of the water which sends out the inside of the hose 51 will become large, and it will be necessary to enlarge the output of a water pump. In particular, in this method, when the water level is lowered to such an extent that the water circulation device 50 reaches the bottom G, the water circulation device 50 is placed on the hose 51 and the hose 51 is damaged. That is, this method cannot cope with the case where the height from the water bottom G to the water surface becomes 0, and the bottom of the water circulation device 50 is impossible.

  Therefore, in the present invention, it is possible to cope with a large change in the water level without increasing the resistance of the water in the water pipe that feeds water between the water circulation device floating on the water surface such as the water circulation device 50 and the deep layer of the water area. An object of the present invention is to provide a water supply system capable of bottoming a water circulation device floating on the water surface and a water quality improvement device using the same.

  The water supply system of the present invention is a water supply system having a water circulation device that floats on the water surface and a water supply tube that supplies water between the water circulation device and a deep layer of the water area, and the water supply tube is a substantially straight straight pipe portion. And the flexible pipe part which connects the upper end part of this straight pipe part and a water circulation apparatus, and a water circulation apparatus is provided with the leg straddling a flexible pipe part.

  According to the water supply system of the present invention, when the water level changes, the straight pipe portion of the water supply pipe is tilted while maintaining a substantially straight shape, and the flexible pipe portion is bent, so that the water supply pipe changes in the water level. Water can be continued between the water circulation device and the water area that follow. At this time, the bent portion of the water supply pipe is only one portion of the flexible pipe portion, and the straight pipe portion of the other portion is maintained in a substantially straight shape, so that water is supplied through the water supply pipe no matter how the water level changes. Water resistance does not change significantly. In addition, when the water level is lowered to such an extent that the water circulation device reaches the bottom, the leg portion provided in the water circulation device straddles the flexible pipe portion, so that the water circulation device is prevented from being placed on the water supply pipe. And the water circulation device can be grounded.

  Here, it is desirable that the flexible tube portion be restricted so as to bend only within one plane. As a result, when the water level changes, the bending direction of the flexible tube portion is determined in one direction, so that the position where the leg portion of the water circulation device straddles the flexible tube portion can be reliably determined, and the water circulation device is connected to the water supply tube. It is possible to reliably prevent the loading.

  Moreover, in the water supply system of this invention, it is desirable to provide the underwater mooring means for mooring the lower end part of a straight pipe part to the bottom part of a water area, or underwater. By anchoring the lower end of the straight pipe section to the bottom of the water area by the underwater mooring means, when the water level changes or the water circulation device receives wind or waves, the water pipe is centered on the underwater mooring means. The straight pipe part becomes inclined. As a result, even if the water level changes or the water circulation device receives wind or waves, the position of the lower part of the water pipe in the deep layer of the water area does not change, so water supply to the same deep layer position or It is possible to carry water from the same deep layer position.

  Furthermore, if this water supply system is provided with land mooring means for mooring the water circulation device on the land, the movement range of the water circulation device and the movement range due to the inclination of the straight pipe section are the same between the mooring position of the land and the bottom of the water area. Since it is determined in the range between the mooring position, it is possible to easily determine the position where the leg portion of the water circulation device is bottomed.

(1) The water supply pipe is composed of a substantially straight straight pipe part and a flexible pipe part connecting the upper end part of the straight pipe part and the water circulation device, and the water circulation device is a leg straddling the flexible pipe part. Because it is possible to cope with large changes in the water level without increasing the resistance of the water in the water pipe that feeds water between the water circulation device floating on the water surface and the deep part of the water area. No matter how the water level changes, water can be fed with small power. Also, when the water level drops to the level where the water circulation device reaches the bottom, the water circulation device prevents the water circulation device from being placed on the water supply pipe by straddling the flexible pipe portion with the legs provided in the water circulation device. Can bottom.

(2) Since the flexible tube portion is regulated to bend only within one plane, the bending direction of the flexible tube portion is determined as one direction when the water level changes, and the legs of the water circulation device are The position straddling the flexible tube portion can be determined with certainty. This makes it possible to reliably prevent the water circulation device from being placed on the water pipe.

(3) By mooring the lower end of the straight pipe part to the bottom of the water area by the water bottom mooring means, even if the water level changes or the water circulation device receives wind or waves, Water supply to the same deep layer position or water supply from the same deep layer position can be performed without changing the position in the deep layer of the water area.

(4) By having land mooring means for mooring the water circulation device on land, the movement range of the water circulation device and the movement range due to the inclination of the straight pipe section are the mooring position of the land and the mooring position of the bottom of the water area. It is possible to easily determine the position where the legs of the water circulator settle down, and to determine the position of the water circulator when the water level changes or wind or waves are received. It becomes.

  1 is an overall configuration diagram of a water quality improvement apparatus according to an embodiment of the present invention, FIG. 2 is an enlarged view in which a part of the main part of FIG. 1 is omitted, FIG. 3 is an enlarged view of a portion A in FIG. FIG.

  In FIG. 1, a water quality improvement device according to an embodiment of the present invention includes a water circulation device 1 that floats on the surface of a closed water area W such as a dam, a lake, a reservoir, and a reservoir, and the water circulation device 1 and the closed water area W. A water pipe 2 that feeds water to and from the deep layer, an underwater anchor 3a and a mooring chain 3b as underwater mooring means for mooring the lower end of the water pipe 2 to the bottom G of the closed water area W, and the water circulation device 1 A land anchor 4a and a mooring wire 4b as land mooring means moored at

  The water circulation device 1 includes a propeller 11 for sucking water in the vicinity of the water surface into the water circulation device body 10 and sending it to the deep layer through the water pipe 2. Further, the water circulation device main body 10 includes a float 12 as a buoyancy generating means for floating the water circulation device 1 on the water surface and maintaining the water circulation device 1 in the vicinity of the water surface. Further, the water circulation device main body 10 includes legs 13 that support the water circulation device main body 10 when the water circulation device main body 10 reaches the water bottom G of the closed water area W. The legs 13 are bowl-shaped legs that straddle the flexible tube portion 2b of the water supply tube 2 described later, and maintain the bottom surface of the water circulation device main body 10 at a position higher than the flexible tube portion 2b.

  The water supply pipe 2 includes a flexible pipe part 2a having flexibility, a substantially straight straight pipe part 2b having no flexibility, and a float part 2c that gives buoyancy to the lower end of the straight pipe part 2. Is done. The flexible tube portion 2a includes a bellows-like duct 2a-1 for providing flexibility, a hinge mechanism 2a-2 for limiting the inclination direction of the duct 2a-1, and a lower portion of the water circulation device main body 10. And a flange 2a-4 for connecting to the upper end portion of the straight pipe portion 2. Since both ends of the duct 2a-1 and the hinge mechanism 2a-2 are fixed to the flanges 2a-3 and 2a-4, the duct 2a-1 is restricted to bend only within one plane.

  The straight pipe portion 2b adopts a split structure in order to be able to adjust the overall length thereof, but it can also be configured integrally. In short, in the present embodiment, the straight pipe portion 2b is not required to be flexible, and may be formed in a straight line so as not to increase the resistance of the water fed through the inside thereof. In addition, the straight pipe part 2b may not be a complete straight line shape, and may be bent to such an extent that the resistance of the water fed inside is not greatly affected. Moreover, the float part 2c is for maintaining the lower end opening part of the straight pipe part 2b in the position away from the water bottom part G by generating a buoyancy in the lower end part of the straight pipe part 2b.

  In the water quality improvement apparatus having the above configuration, the water near the water surface G is sucked by the rotation of the propeller 11, and the sucked water is sent to the water near the water bottom G below the compensation depth through the water pipe 2. Accordingly, the algae as algae floating in the vicinity of the water surface is sucked together with the water and sent out to the water near the bottom G through the water pipe 2. And the water sent out to the water is less likely to receive light in the water than the vicinity of the surface of the water and has a low temperature.

  In particular, in this embodiment, since it is sent to the deepest water bottom portion G in the closed water area W, light hardly reaches and the temperature is low, so the sea cucumber can hardly act and die. After that, the surviving sea bream gradually rises to the surface of the water, but is sucked together with water before being regained its activity, and is sent to the water near the bottom G through the water pipe 2. As a result, the growth of sea cucumbers is suppressed and gradually decreases, so that the water quality of the closed water area W is improved.

  In the present embodiment, the water sucked from the vicinity of the water surface by the water pipe 2 is configured to be sent into the water from the vicinity of the bottom G where the water quality improvement effect is the highest, but the lower end opening of the straight pipe portion 2b The depth should be deeper than the compensation depth. The height from the bottom G of the lower end opening of the straight pipe portion 2b can be freely set by adjusting the length of the mooring chain 3b, and the closed water area can be adjusted by adjusting this length. W can be any depth in water. Moreover, in this water quality improvement apparatus, by reversely rotating the propeller 11, the water in the closed water area W can be sucked and sent to the vicinity of the water surface through the water pipe 2.

  Moreover, in the water quality improvement apparatus in this embodiment, when the amount of water in the closed water area W decreases, the height from the water bottom G of the water circulation apparatus 1 decreases as the water level on the water surface decreases. At this time, in the water supply pipe 2, only the flexible pipe portion 2a is bent, and the straight pipe portion 2b is inclined while maintaining a straight shape. When the water level from the water bottom G becomes close to 0, the flexible tube portion 2a bends substantially at a right angle as shown in FIG. 4, and the water circulation device 1 straddles the flexible tube portion 2a with the legs 13. It becomes a state.

  Therefore, in the water quality improvement apparatus in the present embodiment, the water circulation device 1 reaches the water bottom G without being placed on the water pipe 2. In this water quality improvement device, when the water level changes as described above, the straight pipe portion 2b of the water pipe 2 is inclined while maintaining a straight shape, and only the flexible pipe portion 2a is bent, so that the water pipe 2 can continue water supply from the water circulation device 1 that follows the change in the water level to the vicinity of the bottom G of the closed water area.

  At this time, the bent part of the water supply pipe 2 is only one place of the flexible pipe part 2a, and the straight pipe part 2b of the other part is maintained in a straight line shape, so that the water supply pipe 2 no matter how the water level changes. The resistance of the water sent through the inside does not change greatly. Therefore, it is possible to cope with a large change in the water level of the closed water area W, water can be supplied with a small amount of power no matter how the water level changes, and a small and small output propeller 11 can be used. it can.

  Moreover, in the water quality improvement apparatus in this embodiment, since the flexible tube part 2a is regulated to bend only in one plane, the bending direction of the flexible tube part 2a is unidirectional when the water level changes. It has been decided. Therefore, the leg 13 of the water circulation device 1 is disposed at a position deviated from the bending direction of the flexible tube portion 2 a, and the leg 13 of the water circulation device 1 does not rest on the water supply pipe 2.

  Further, in this water quality improvement device, the water level is changed by anchoring the lower end portion of the straight pipe portion 2b to the water bottom portion G of the closed water area W by the underwater anchor 3a and the mooring chain 3b, and the water circulation device 1 Even when a wave is received, water supply to the same deep layer position can be performed without changing the position in the deep layer portion of the closed water area W at the lower end of the water pipe 2.

  Furthermore, in this water quality improvement device, since the water circulation device 1 is moored on land by the land anchor 4a and the mooring wire 4b, the movement range of the water circulation device 1 and the movement range due to the inclination of the straight pipe portion 2 are the land mooring position. And the mooring position of the bottom G of the closed water area W, the position at which the legs 13 of the water circulation device 1 settle can be easily determined. It becomes possible to determine the position of the water circulation device 1 when receiving waves or waves.

  The water supply system of the present invention is useful as a system for supplying water regardless of the water supply direction between the water circulation device floating on the water surface and the water circulation device and the deep layer of the water area. In addition, the water quality improvement device using the water supply system of the present invention is useful as a device for improving the water quality of closed water areas such as dams, lakes, reservoirs and reservoirs, but should also be used in water areas other than closed water areas. Can do.

It is a whole block diagram of the water quality improvement apparatus in embodiment of this invention. It is the enlarged view which abbreviate | omitted a part of main part of FIG. It is the A section enlarged view of FIG. It is the B section enlarged view of FIG. It is a figure which shows the conventional water quality improvement apparatus, Comprising: (a) is a figure which shows the state which the hose extended in the perpendicular direction, (b) is a figure which shows the state which the hose curved in several places.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Water circulation apparatus 10 Water circulation apparatus main body 11 Propeller 12 Float 13 Leg 2 Water supply pipe 2a Flexible pipe part 2a-1 Duct 2a-2 Hinge mechanism 2a-3, 2a-4 Flange 2b Straight pipe part 2c Float part 3a Underwater anchor 3b Mooring Chain 4a Land anchor 4b Mooring wire

Claims (5)

A water supply system having a water circulation device floating on the water surface and a water supply pipe for supplying water between the water circulation device and a deep layer of the water area,
The water pipe is composed of a substantially straight straight pipe part and a flexible pipe part that connects the upper end of the straight pipe part and the water circulation device,
The water circulation device is a water supply system including a leg portion straddling the flexible tube portion.   The water supply system according to claim 1, wherein the flexible tube portion is restricted to bend only within one plane.   The water supply system according to claim 1 or 2, further comprising underwater mooring means for mooring the lower end of the straight pipe portion to the bottom of the water area or to the water.   The water supply system according to claim 3, further comprising land mooring means for mooring the water circulation device on land.   The water circulation device in the water supply system according to any one of claims 1 to 4, wherein the water circulation system sucks water in the vicinity of the water surface and sends it into the water through the water supply pipe, or sucks water in the water area under water, and the water supply pipe A water quality improving apparatus comprising a means for delivering the water to the vicinity of the water surface.

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