JP3280294B2 - Artificial tide pool - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to an artificial tide pool provided on a coast.

[0002]

2. Description of the Related Art On rocky shores, etc.
10, the depression as shown in FIG. 11 is naturally formed in a step-like manner,
Seawater naturally accumulates in the depression due to the tide level difference caused by the ebb and flow of the tide of the sea 3, and the tide pool (tide pool) 1 is formed. By the way, the tide level difference between low tide and high tide is 2 m on the Pacific coast, 0.3 m on the Sea of Japan and 3 m on the Seto Inland Sea.
There is water near the slope of the coast 2 within this tidal range (intertidal zone).

At the time of ebb tide, the tide pool 1 has a maximum size and emerges, and organisms suitable for conditions such as the shape of a puddle inhabit here, and this place is a playground for children. It is also a fishery place for fisheries.

[0004] It is conceivable to artificially make such a tide pool 1, and as shown in FIG. 9, an inclined surface of the shore 2 is artificially excavated to provide a plurality of depressions in a stepwise manner.
A step is formed using concrete or natural stone, and seawater is drawn in from the sea 3 by using a difference in tide level in the depression.

[0005]

The tide pool 1 is a type in which seawater is supplied from the sea 3 into the depression at the time of the next rising tide and the seawater is replaced naturally. Despite the fact that the artificial tide pool 1 was formed by forming a depression, the temperature of the water accumulated in the tide pool 1 increased or decreased until the next rising tide, and the salinity due to evaporation of the water. As a result, especially for larvae and the like, the habitat environment changes greatly, and the larvae may die. Therefore, a phenomenon occurs in which organisms that should originally inhabit cannot be inhabited.

The reason that such a phenomenon does not occur in the natural tide pool 1 is that the natural tide pool 1 has the tide pool 1.
Seawater that had infiltrated the rocky area above the tide pool gradually flowed to the lower tide pool 1 until the next rising tide, supplying seawater, thereby preventing the rise and fall of the water temperature in the tide pool 1 This also prevents the concentration of salt from changing.

On the other hand, in the artificial tide pool 1, the tide pool 1 is not used until it is flooded by the next rising tide.
There is no exchange of seawater inside, and the temperature and salinity of the water in the tide pool 1 greatly change as the temperature rises and falls. As a result, the organisms that can live here are limited.

[0008] By the way, the replacement of seawater in the artificial tide pool 1 is performed in the upper tier of the tide pool 1 provided in three stages as shown in FIG. , Maximum solar radiation of 110,000 lux, 0.4 m ³ of water in tide pool 1, sea water temperature
Under the conditions of 26 ° C and 30% salinity, it takes about 8 hours until the next replacement of seawater, during which time the rise in temperature is 8:
The temperature rose from 26 ° C at 00 to 37 ° C at 16:00, and the salinity increased from 30% to 39%.

In winter, the temperature at night is -2 to 3 ° C.,
Under the condition of sea water temperature of 10 ° C and salinity of 34%, there is no change in salinity, but seawater temperature was 10 ° C at 20:00, but decreased to 5.5 ° C at 4:00. Is declining.

SUMMARY OF THE INVENTION An object of the present invention is to eliminate the disadvantages of the prior art and, in view of the action of a natural tide pool, increase the temperature of seawater in the tide pool until the next rising tide even in an artificial tide pool. And decrease the decrease in salinity, increase the types of living things that can live here,
An object of the present invention is to provide a tide pool that can sufficiently exhibit the function as a tide pool.

[0011]

SUMMARY OF THE INVENTION In order to achieve the above object, the present invention firstly provides an artificial tide pool in which seawater flows into a depression formed on the coast due to a difference in tide level to form a tide pool. A seawater storage tank is provided in the ground in proximity to a certain depression, a seawater inlet through which seawater flows in at the time of high tide in the storage tank, and a drainage port for supplying the stored seawater to a depression that is a tide pool at any time, The gist is that an adjustment valve is provided at the drain port.

Second, the storage tank should be provided at a position higher than the depression, which is a tide pool. Third, the seawater inlet should be provided at the ceiling of the storage tank and also serve as an air vent hole. At the seawater inlet, an eave is raised from the opening edge of the seawater inlet to cover the upper part of the seawater inlet. Fifth, the eave is directed to the sea side and the land side with respect to the plurality of seawater inlets. The seawater inlet is formed with an opening facing the sea side and an opening facing the land side. Sixth, a projecting wall for preventing rainwater inflow is provided at the opening edge of the seawater inlet. It is assumed that.

Seventh, the seawater inlet is provided on the sea-side wall surface of the storage tank, and an air vent hole is provided above the seawater inlet. Eighth, the drainage port is provided in a depression which is a tide pool. Open above the surface of the pool of seawater, or
Ninth, the drain is open near the bottom of the pit, which is a tide pool, and tenth, an inspection port inside the tank is provided at the ceiling of the storage tank.

According to the first aspect of the present invention, seawater flows into the tide pool at the time of rising tide and accumulates in the tide pool. However, seawater is also stored in the seawater storage tank provided near the depression which is the tide pool. It flows in from the seawater inlet and is stored here. Since the storage tank is provided in the ground, it is hardly affected by the external environment such as temperature, and the temperature and salt concentration of the seawater stored here are maintained as they were when the water was taken in. Then, until the next rising tide, seawater does not directly flow into the tide pool from the sea, but the seawater stored in the storage tank is supplied from the drain port to the tide pool.

Accordingly, during this time, seawater is replenished in the tidal pool, the seawater in the tidal pool is exchanged, and the water temperature does not rise or fall abnormally, nor does the salt concentration increase due to evaporation. It is possible to prevent the occurrence of environmental change for living organisms living here, and it is possible to inhabit various living organisms. In addition, the supply time and amount of the seawater from the storage tank can be adjusted by opening and closing the adjusting valve, and the response can be made according to the situation.

According to the second aspect of the present invention, in addition to the above-described operation, the storage tank is provided at a position higher than the depression which is a tide pool, so that seawater is naturally dropped into the storage tank by artificial tide pooling. Therefore, seawater can be supplied to the tide pool with a simple structure without requiring any special equipment.

According to the third aspect of the present invention, in addition to the above function, the seawater inlet is provided at the ceiling of the storage tank, and serves as an air vent hole to store seawater when the sea level rises during rising tide. It can be securely taken into the tank and stored here.

According to the fourth aspect of the present invention, in addition to the above-described operation, a seawater inlet is provided with an eave rising from the opening edge of the seawater inlet to cover the upper part of the seawater inlet, thereby providing a seawater flow. Inflow of rainwater falling from above into the entrance can be prevented, and a decrease in salt concentration and desalination of seawater due to mixing of precipitation can be prevented.

According to the fifth aspect of the present invention, in addition to the above-mentioned function, the eaves are provided in such a manner that a plurality of seawater inlets facing the sea side and the land side are mixed, and the seawater inlet is provided on the sea side. When the seawater flows in from the seawater inlet at the time of rising tide, it is difficult for seawater to directly flow into the opening facing the land, and the opening functions as an air vent hole. Demonstrate. Therefore, it can be prevented that all the openings are closed with seawater and there is no one functioning as an air vent hole, and the internal pressure of the storage tank is reduced, so that seawater can easily flow.

According to the sixth aspect of the present invention, in addition to the above-described operation, since a projection wall for preventing rainwater inflow is provided at the opening edge of the seawater inlet, the water comes from a rocky place or the like which covers the storage tank from above. The inflow of rainwater is prevented.

According to the seventh aspect of the present invention, in addition to the above-described operation, the seawater inlet is provided on the sea-side wall surface of the storage tank, and the air vent hole is provided above the seawater inlet. Since the seawater inlet can be opened at a position closer to the surface of the tide pool as compared with the case where the tide pool is provided on the ceiling portion, it is suitable for the case where the tide pool is provided at a position near the high tide water level. And since the air vent was provided above the seawater inlet,
Even at high tide, this will not be blocked by seawater and air can be reliably vented from the storage tank.

According to the eighth aspect of the present invention, in addition to the above-mentioned function, the drain port is opened above the surface of the seawater accumulated in the tide pool, so that the seawater already in the tide pool is opened. Fresh water can be supplied smoothly from the storage tank without receiving the water pressure. The supplied seawater is mixed with the existing seawater by the wind on the water surface. Therefore, such a drain port is suitable for a tide pool having a shallow water depth and a large surface area.

According to the ninth aspect of the present invention, in addition to the above operation, the drain port is opened near the bottom of the tide pool, so that fresh seawater can be supplied from the storage tank to the tide pool. , Made in the bottom layer of the tide pool. Therefore, such a drain port position is suitable for a tide pool having a large water depth.

According to the tenth aspect of the present invention, in addition to the above operation, an inspection port inside the tank is provided on the ceiling of the storage tank, so that the tied pool closed in the ground is cleaned from the inspection port. If a wire, for example, is inserted as a tool, it is possible to easily remove an accessory attached particularly to the drain port, and to prevent clogging of the drain port.

[0025]

Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 is a vertical sectional side view showing the entire artificial tide pool of the present invention, FIG. 2 is a vertical sectional side view showing a first embodiment of the artificial tide pool of the present invention, and FIG. 3 is a plan view of a storage tank as a main part of the same. The tide pools 1a, 1 are made of concrete, natural stone, or a combination thereof in a stepwise manner from the sea 3 to the land 4 on the coast 2 from the sea 3 to the land 4.
A plurality of depressions b and 1c are formed.

In this case, the tide pools 1a to 1c formed in steps are arranged within the width of the intertidal zone between the low tide water level 3a and the high tide water level 3b.
Seawater storage tank 5 in the ground on the side of land 4
a, 5b, 5c are constructed of concrete or the like.

FIG. 2 shows a tide pool 1a located at the lowest part on the side of the sea 3 and a storage tank 5a communicating therewith as the first embodiment, and is located above the tide pool 1a and on the side of the land 4. A storage tank 5a was constructed underground. This storage tank 5a
Forms a plurality (two in the illustrated example) of seawater inlets 7 also serving as air vents on the ceiling 6.

An eave 8 is raised from the opening edge of the seawater inlet 7 so as to cover the upper part of the seawater inlet 7, and as shown in FIG.
An eaves 8a facing the sea 3 as shown in FIG. 4A and an eaves 8b facing the land 4 as shown in FIG. 4B are provided in a mixed manner, and the opening of the seawater inlet 7 faces the sea. And those facing the land side.

As shown in FIG. 5, on the side of the opening edge of the seawater inlet 7 where the eaves 8 do not protrude, a projecting wall 9 for preventing inflow of rainwater is provided.

As shown in FIG. 2, a drain port 10 is provided at the bottom of the storage tank 5a so as to open above the water surface of the tide pool 1a.
The upper part of a is communicated, and the drain port 10 is provided with an appropriate number of adjusting valves 11 for adjusting the amount and timing of drainage.

The ceiling 6 of the storage tank 5a further has an inspection port 12
Is provided. This inspection port 12 is provided at an appropriate position corresponding to the drain port 10 with respect to an appropriate number of drain ports 10.

FIG. 6 shows a second embodiment, which relates to a tide pool 1b located at the upper stage of the tide pool 1a located at the lowest part of the sea 3 shown in the first embodiment. Same as in the first embodiment, except that the storage tank 5b is formed to have a greater depth than the lower storage tank 5a, and the drain port 10 provided at the bottom is opened near the bottom of the tide pool 1b.

FIGS. 7 and 8 show a third embodiment, in which the seawater inlet 7 of the storage tank 5c constructed on the land 4 side of the uppermost tide pool 1c arranged near the high tide level is set. It was formed on the wall 13 on the side of the sea 3. In the example shown, the high tide water level during the spring tide and the high tide water level during the ebb tide are each 15 cm
A plurality of seawater inlets 7a at the time of the spring tide and seawater inlets 7b at the time of the ebb tide are formed in the upper and lower two stages at a lower position. Since these seawater inlets 7a and 7b are provided on the substantially vertical wall surface 13, the eaves 8 and the projecting wall 9 for preventing rainwater inflow do not have to be provided.

An air vent hole 14 is provided in the wall surface 13 above the seawater inlet 7a at the time of the spring tide.

In the illustrated example, the drain port 10 is a tide pool 1c.
However, the opening is not limited to this, and may be opened at the bottom corresponding to the shape of the tide pool 1c.

Next, the operation will be described. When the sea 3 rises, the sea level rises to a position above the tide pools 1a to 1c, and the seawater is stored in a storage tank 5 provided on the land 4 side.
a to 5c flow from the seawater inlets 7, 7a, 7b and are stored here. The inflow of seawater from the seawater inlet 7 is ensured by the seawater inlet 7 also serving as an air vent hole or by a separately provided air vent hole 14.
Since 5c is provided underground, it is hardly affected by the external environment such as air temperature, and the temperature and salt concentration of seawater stored here are maintained as they were when taken in.

Then, the seawater inlet 7 is connected to the storage tanks 5a, 5b.
In the case where the seawater inlet 7 is provided on the sea 3 side, the eaves 8a and 8b covering the openings are provided in such a manner that a plurality of seawater inlets 7 facing the sea 3 side and the land 4 side are mixed. When the seawater flows in from the seawater inlet 7 during rising tide, it is difficult for the seawater to directly flow into the opening facing the land 4, and the opening serves as an air vent hole. Demonstrate the function of Therefore, it can be prevented that all the openings are closed with seawater and there is no one that functions as an air vent hole, and the internal pressure of the storage tanks 5a and 5b is reduced, so that seawater can easily flow.

The seawater inlets 7a and 7b are connected to the sea 3 in the storage tank 5c.
When provided on the side wall 13, the seawater inlet 7 is located closer to the water surface of the tide pool 1 c than when provided on the ceiling.
Since a and 7b can be opened, seawater can be taken in even when the tide pool 1c is provided near the high tide water level 3b. By separately providing the air vent hole 14 above the seawater inlets 7a, 7b, even at high tide, the air vent hole 14 is not blocked by seawater, and the air in the storage tank 1c can be reliably vented.

Then, at the time of ebb, the seawater remains in the depressions to form tide pools 1a to 1c. Tide pool 1a
Seawater does not flow directly from the side of the sea 3 until the next rising tide, but the regulating valve 11 provided in the storage tanks 5a to 5c is appropriately opened to store the water in the storage tanks 5a to 5c during this time. The supplied seawater is supplied to the tide pools 1a to 1c by natural fall.

When the drain port 10 is opened above the water surface of the tide pool 1a, the supplied fresh seawater and the seawater already in the tide pool 1a are mixed by being stirred by the wind or the like. Therefore, the supply of seawater from above the water surface is suitable for a tide pool having a shallow and large surface area.

On the other hand, when the drain port 10 is opened at the bottom of the tide pool 1b, the seawater to be supplied is
Since it is supplied to the bottom of b, it is suitable for the tide pool 1b having a large depth.

With the reinforcement of the fresh seawater from the storage tanks 5a-5b, the seawater in the tide pools 1a-1c is gradually exchanged little by little, and the tide pools 1a-1c are maintained until the next rising tide. The seawater inside is prevented from rising or falling under the influence of the temperature, and the salt concentration is prevented from changing due to evaporation of the seawater.

By the way, for example, in summer, the temperature is 27 ° C.
Under the conditions of ~ 30 ° C, maximum solar radiation of 110,000 lux, 0.4m ³ of water in the tide pool 1, sea water temperature of 26 ° C, and salt concentration of 30%, there is about 8 hours until the next replacement of seawater. , During this time, the temperature rose to 26 ℃ at 8:00,
Even at 16:00, it only increased to 28 ° C and the salt concentration
30% to 30.5. It only rises to%.

In the winter season, the seawater temperature is 20: 0 under the conditions of night temperature -2 to 3 ° C, sea water temperature of 10 ° C, and salt concentration of 34%.
It was 10 ° C at 0, but only dropped to 9.0 ° C at 4:00. Salinity remains unchanged.

When the seawater inlet 7 is provided on the ceiling of the storage tanks 5a and 5b, the eaves 8a and 8b are raised from the opening edge of the seawater inlet 7 to cover the upper part of the seawater inlet 7. By this, the inflow of rainwater falling from above into the seawater inlet 7 can be prevented, and furthermore, a rocky place covering the upper part of the storage tanks 5a, 5b by the rainwater inflow preventing projection 9 provided at the opening edge of the seawater inlet 7 It can also prevent the inflow of rainwater coming from the sea, and can prevent a decrease in salt concentration and desalination of seawater due to the contamination of precipitation.

When the attachments adhere to the drain port 10, a wire or the like is used as a cleaning tool for the storage tanks 5a to 5c, which are closed underground spaces, from the inspection port 12 provided on the ceiling of the storage tanks 5a to 5c. If it is inserted, the attachment can be easily removed, and the clogging of the drain port 10 can be removed.

[0047]

As described above, the artificial tide pool of the present invention firstly requires the seawater flowing into the storage tank at the time of rising tide to
Under the condition that it is hard to be affected by the external environment such as outside temperature in the ground, the temperature and salinity of the seawater stored here are kept as they were when the seawater was taken in, and the seawater from here until the next rising tide Since the tide pool is replenished, the seawater in the tide pool is exchanged, and the water temperature does not rise or fall abnormally, nor does the salt concentration increase due to evaporation,
It is possible to prevent the occurrence of environmental changes in living organisms living here, and it is possible for various living organisms to live. In addition, the supply time and amount of the seawater from the storage tank can be adjusted by opening and closing the adjusting valve, and the response can be made according to the situation.

Since the storage tank is provided at a higher position than the tide pool, seawater can be supplied into the storage tank by natural fall. Therefore, seawater can be supplied to the tide pool with a simple structure without any special equipment. Can be.

The seawater inlet is provided at the ceiling of the storage tank, and also serves as an air vent, so that when the sea level rises during rising tide, the seawater can be reliably taken into the storage tank and stored there, and the eaves of the seawater inlet can be provided by an eave. Since it covers the upper part and has a projection wall for preventing rainwater inflow at the opening edge of the seawater inflow port, it can prevent the inflow of rainwater falling from above and the inflow of rainwater transmitted from rocks covering the storage tank, It is possible to prevent reduction of salt concentration and desalination of seawater caused by precipitation.

Further, the eaves are provided in such a manner that a plurality of seawater inlets facing the sea side and the land side are mixed, and the seawater inlets are formed with an opening facing the sea side and an opening facing the land side. When seawater flows in from the seawater inlet at the time of rising tide, it is difficult for seawater to directly flow into the opening facing the land side, and the opening functions as an air vent. Therefore, it can be prevented that all the openings are closed with seawater and there is no one functioning as an air vent hole, and the internal pressure of the storage tank is reduced, so that seawater can easily flow.

A seawater inlet is provided on the seaside wall surface of the storage tank,
By providing an air vent hole above the seawater inlet, it is possible to provide a tide pool near the high tide water level, and the air vent hole is provided above the seawater inlet, so that even when high tide, The air in the storage tank can be reliably vented without being blocked.

By opening the drain port above the water surface of the tide pool, in the case of a tide pool having a shallow depth and a large surface area, the fresh water can be smoothly discharged from the storage tank without receiving the seawater pressure already existing in the tide pool. Seawater can be supplied, and the supplied seawater can be mixed with the existing seawater by wind or the like on the water surface.

By opening the drain port near the bottom of the tide pool, fresh seawater can be supplied from the storage tank to the tide pool to the bottom layer of the tide pool in the case of a tide pool having a large depth.

Then, for example, a wire or the like can be inserted as a cleaning tool from a check port provided on the ceiling of the storage tank into the tide pool closed in the ground.
In particular, attachments attached to the drain can be easily removed,
It can remove the clogging of the drain.

[Brief description of the drawings]

FIG. 1 is a vertical sectional side view showing the entire artificial tide pool of the present invention.

FIG. 2 is a longitudinal side view showing the first embodiment of the artificial tide pool of the present invention.

FIG. 3 is a plan view showing a first embodiment of the artificial tide pool of the present invention.

FIG. 4 is a vertical sectional side view of an eave portion of a seawater inlet which is a main part of the first embodiment of the artificial tide pool of the present invention.

FIG. 5 is a vertical sectional side view of a seawater inlet, which is a main part of the first embodiment of the artificial tide pool of the present invention.

FIG. 6 is a longitudinal sectional side view showing a second embodiment of the artificial tide pool of the present invention.

FIG. 7 is a longitudinal sectional side view showing a third embodiment of the artificial tide pool of the present invention.

FIG. 8 is a perspective view showing a third embodiment of the artificial tide pool of the present invention.

FIG. 9 is a vertical side view of a conventional artificial tide pool.

FIG. 10 is a vertical side view of a natural tide pool.

FIG. 11 is a plan view of a natural tide pool.

[Explanation of symbols]

1, 1a, 1b, 1c Tide pool 2 Beach 3 Sea 3a Low tide water level 3b High tide water level 3b 4 Land 5a, 5b, 5c
Storage tank 6 ... Ceiling 7,7a, 7b ... Seawater inlet 8,8a, 8b ... Eave 9 ... Protrusion wall 10 ... Drain port 11 ... Adjustment valve 12 ... Inspection port 13 ... Wall surface 14 ... Air vent hole

(56) References JP-A-4-152828 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) E02B 3/00 JICST file (JOIS)

Claims (10)

(57) [Claims] 1. An artificial tide pool, in which seawater flows into a depression formed on a coast due to a tide level difference to form a tide pool, a seawater storage tank is provided in the ground adjacent to the tide pool. An artificial tide pool, comprising: a seawater inlet through which seawater flows into a tank at high tide; and a drainage port for supplying stored seawater to a depression, which is a tide pool, at any time, and an adjustment valve is provided at the drainage hole. 2. The artificial tide pool according to claim 1, wherein the storage tank is provided at a position higher than a depression that is a tide pool. 3. The artificial tide pool according to claim 1, wherein the seawater inflow port is provided in a ceiling portion of the storage tank and also serves as an air vent hole. 4. The artificial tide pool according to claim 1, wherein an eave is raised from an opening edge of the seawater inlet to cover an upper part of the seawater inlet. 5. The eaves are provided with a plurality of seawater inlets facing the sea side and the land side mixedly provided, and the seawater inlets are formed with openings facing the sea side and openings facing the land side. The artificial tide pool according to any one of claims 1 to 4. 6. The artificial tide pool according to claim 1, wherein a projection wall for preventing rainwater inflow is provided at an opening edge of the seawater inlet. 7. The artificial tide pool according to claim 1, wherein the seawater inlet is provided on a sea-side wall surface of the storage tank, and an air vent hole is provided above the seawater inlet. 8. The artificial tide pool according to claim 1, wherein the drain port opens above the surface of the seawater stored in the tide pool. 9. The artificial tide pool according to claim 1, wherein the drain port is opened near the bottom of the depression that is a tide pool. 10. The artificial tide pool according to claim 1, wherein an inspection port inside the tank is provided on a ceiling portion of the storage tank.