KR100941775B1 - Wave river - Google Patents

Abstract

PURPOSE: A wave river is provided to form flux and wave at high speed on a joint part between a waterway and a discharge waterway. CONSTITUTION: A wave river comprises an opening(13), a water container(12), and a water storage part(113). The wave river comprises a flow path part(100), a chamber part(130), and a circulator(120). An opening is formed on the wall of a waterway(10). The opening has a grill part(14). The waterway is formed around a flux reduction part(11). The water container is connected to the flux reduction part through the opening. The water container contains the water flowing into the reduction part.

Description

Wave River {WAVE RIVER}

According to the present invention, the water stored in the water reservoir is discharged to the water channel so that the waves generated in the water channel can be circulated along all sections of the circulation channel, all the water circulated along the water channel can be recovered back to the water reservoir It is about.

In general, a pool is a type of swimming facility that allows water to be stored or flows inside, and allows people to enter the water and enjoy playing in the water.

Such a pool is a situation that is developed and installed in various forms, such as standard pool, flowing water pool, wave pool according to the flow of water.

Among these various types of pools, especially the lassau is a waterway that circulates along a certain path, and the water flows along the waterway to make you feel as if you are playing in a valley or a river. It is installed.

However, in the lazy rivers as described above, the water flows calmly, and the fun of playing in the water decreases.

In addition, the wave pool is to pool the water in a pool having a certain area, and then to form a wave by using a separate device, such as to have the same effect as playing in the beach without going to the beach, Such a wave pool also has a limit to feel the interest as the wave is generated in a state where water is simply standing, there is a problem that a complicated mechanism is required to form the wave.

In order to solve the above problems, as an example of the prior art, Patent No. 10-0634236 has been proposed. The above-described prior art is the water discharged from the water storage unit through the hydrology flows along the circulation channel while forming a wave, the water flowing along the circulation channel while being recovered back to the water storage unit through the recovery unit is recovered to the storage unit, the circulation channel and Vortex flow is reduced at the point where the discharge channel meets, and waves of constant height are formed in the circulation channel.

However, since the conventional technique is not provided with a means for additionally providing kinetic energy to the water discharged from the water tank, the flow rate of the water flowing along the long circulating water passage is gradually reduced to efficiently recover the water tank. There is a problem.

In addition, the water is stagnant in the section of the wave extinction portion formed to prevent the generation of waves of excessive height, and thus, the water used repeatedly is not collected in the water tank again, it is accompanied with the problem of refilling new water, On the wall side of the circulating water channel located in the section after the flow rate lowering, the stagnant people are flown in the congestion section because it cannot be circulated efficiently along the water channel due to the suction force of the recovery unit for recovering the circulated water to the water storage unit. There is a cumbersome problem of manually pushing out stagnant people by providing a separate water transfer means or by sending safety personnel to send.

In addition, people often rise up to the drain flows out from the water reservoir for curiosity and thrill, the water stored in the water reservoir is discharged with a strong force by its own water pressure People going up to the discharge channel is a problem that a safety accident is caused by the water discharged with a strong force.

In addition, the water gate is opened and closed through the driving motor and the hydrologic operation unit at intervals of 2 to 3 minutes in order to continuously provide people with the service of surf play. In this case, the guide supporting the water gate so that it is not released from the outlet when the gate is elevated. Friction between the rails and the gate will cause wear and tear on the gate and the guide rail, which will cause trouble to repair the gate and the guide rail, and the structure of the gate door to open and close the gate will be very complicated. It is accompanied by a problem that is difficult to repair, and since the gate is opened and closed by the operation of the driving motor, there is a problem of much energy consumption.

The present invention has been made to solve the above problems of the prior art, the water stored in the water storage unit is discharged to the water through the discharge can maintain a constant flow rate and can be circulated along all sections of the circulating water The aim is to provide a wave river where all the water circulated along the channel can be recovered back to the water reservoir.

A further object of the present invention is to provide a wave river capable of continuously circulating people without stagnant sections by placing a means for recovering water in a position where people do not interfere with the circulating waterway.

Still another object of the present invention is to provide a wave river that can prevent in advance the safety accidents caused by water descending at high speed as people climb into the drain.

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Still another object of the present invention is to provide a wave river that can open and close the water gate with a simple structure without wear / flaw, and minimize the energy consumption for opening and closing the water gate.

Means of the present invention for achieving the above-described plurality of objects of the present invention Means of the present invention for achieving the above-mentioned plurality of objects of the present invention is a flow rate decrease formed inclined to one side while the water is circulated and the width of a certain portion is widened Is provided with an additional waterway, and formed on one side of the waterway, a plurality of outlets are formed in the lower portion toward the waterway side to discharge the water stored in the internal space through the outlet, the water gate for opening and closing the outlet A water discharge part disposed between the water reservoir and the water reservoir and inclined toward the water channel to supply water discharged from the discharge port of the water reservoir to the water passage, and installed at the water gate of the water reservoir; Opening and closing means for opening and closing the discharge port by rotating up and down, and the artificial beach portion connected to the flow rate lower portion of the waterway Wave river, including
It is formed on the wall surface of the waterway formed in the vicinity of the flow rate lower portion, is formed on one side of the wall surface of the waterway formed in the opening portion, the grill portion is provided, and in close proximity to the flow rate lower portion, and communicates with the flow rate lowering portion through the opening portion A flow path consisting of a fresh water reservoir in which the water flowing from the lowering part is fresh, a inlet formed in the artificial beach, and an inflow port through which the water of the flow rate lowering part flows in, and a flow path tube connected to the inlet and accumulating water introduced through the inlet. And a storage unit which is formed in the inner space of the flow path tube to store the accumulated water in the flow path tube, a chamber unit installed in the fresh water reservoir to store the fresh water in the fresh water reservoir, and installed in the storage unit. A first suction pipe for sucking the water in the reservoir, a second suction pipe installed in the chamber, and sucking the water in the chamber; And a supply pipe filling the water storage unit with the water sucked through the first and second suction pipes, and including a circulation means formed at a position close to the freshwater reservoir, and storing water at one end of the discharge water. A drop portion for providing kinetic energy to the water discharged from the outlet of the negative portion is further provided, the opening and closing means is formed in the discharge channel formed in the adjacent position of the water gate and coupled to the water gate, connected to the hydraulic pump, the hydraulic pressure is injected Drive cylinder for opening and closing the discharge port by rotating the water gate in the vertical direction as it is discharged or discharged, and is electrically connected to the hydraulic pump to control the hydraulic pump to inject or discharge the hydraulic cylinder to drive the drive cylinder, The amount of water discharged from the water storage unit is alternately sequentially so as to continuously change It characterized in that parts made of the controller such that the inlet pressure.

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In the wave river according to the present invention, the water stored in the water storage unit is discharged to the water channel through the discharge channel, the generated wave is obtained by the kinetic energy by the drop portion can be circulated while maintaining a constant flow rate in all sections of the circulation channel As a result, all of the water circulated along the channel can be efficiently recovered back to the water reservoir, allowing continuous replenishment of the water discharged into the channel without refilling the new water.

In addition, the circulation means applied to the present invention is installed in a position where people do not interfere with the circulating water channel, there is an effect that people can continue to circulate along the water channel without congestion.
In addition, it is possible to prevent human accidents by preventing safety accidents caused by water descending at high speed by blocking people from going up to the drain through the dropping portion having a predetermined height located at the end of the drain.

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 In addition, the water gate can be opened and closed with minimal energy without abrasion / defects by opening and closing the water gate in a rotational manner rather than a sliding method, and the water discharged from the water storage unit is discharged with strong force in the discharge water path by its own water pressure and circulates. There is an effect that can be efficiently circulated throughout the entire channel.

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In addition, it is possible to easily circulate people in the congestion section of the waterway, and to form a wave while maintaining a constant flow rate even in the congestion section, and to form a rapid flow rate and a wave at a portion where the waterway and the discharge channel contact each other.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be more apparent.

1 is an overall perspective view of a wave river according to the present invention, Figure 2 is a plan view of a wave river according to the present invention.

As shown in FIG. 1 and FIG. 2, the wave river according to the present invention includes a water channel 10, a discharge water channel 20, a water storage unit 40, a water gate 50, an opening and closing means, The space channel 12, the flow path part 100, the storage part 113, and the suction part 120 is comprised.

The water channel 10 has an elliptical shape so that the circulated water is returned to the water storage unit 40 again, and the people located in the water channel 10 continue to rotate along the water channel 10 and the water channel 10 There is provided a flow rate lowering portion 11 inclined to one side while widening a predetermined section.

The discharge channel 20 is located between the channel 10 and the water storage unit 40 to connect the water channel 10 and the water storage unit 40, but the water channel 10 in the water storage unit 40 Is formed to be inclined to the side so that the water discharged from the water storage unit 40 flows quickly down the waterway 10 through the discharge waterway (20).

In addition, in consideration of the fact that the flow rate of water discharged from the water storage unit 40 gradually decreases while flowing along the water channel 10, the bottom surface of the discharge water channel 20 is completed in consideration of the inability to efficiently circulate the water channel 10. In the dome-shaped drop portion 30 that can impart kinetic energy to the water is further formed.

The height of the drop portion 30 is the water discharged from the water storage unit 40 is circulated while maintaining a constant flow rate throughout the entire section of the water channel 10, and people to the discharge channel 20 to the water descends at high speed It is preferable to install at a height of 50 cm to 70 cm that can prevent the rise.

In the above description, the height of the free fall portion 30 is set to a height of 50 cm to 70 cm, and the shape is described as a dome shape, but the height and shape are not limited thereto, and the most ideal height by those skilled in the art according to the conditions and characteristics of the wave river. It will be possible to easily change the shape and.

The flow rate lowering portion 11 is formed in a shape in which the width of the waterway 10 is widened in a predetermined section of the waterway 10 so that high waves are continuously generated as water is continuously generated by the water flowing in the waterway 10. To prevent them.

In addition, an opening portion 13 having a predetermined size is further formed on the wall surface of the channel formed at a position adjacent to the flow rate lowering portion 11, and the grill portion 14 is attached to the opening portion 13 by screws / bolts. Are installed at intervals.

The flow rate lowering portion 11 is formed in a shape in which a predetermined section of the waterway 10 is widened to prevent the formation of high waves as the water is continuously generated by the water flowing in the waterway 10.
In addition, an opening 13 is further formed on the wall surface of the water channel 10 formed at a position close to the flow rate lowering portion 11 to induce water from the flow rate lowering portion 11 to flow into the fresh water reservoir 12. The opening portion 13 is provided with a grill portion 14 through screws and bolts to prevent people from flowing into the fresh water reservoir 12.
The fresh water reservoir 12 is formed to be connected to the outside of the water channel 10 formed at a position close to the flow rate lowering portion 11, and communicates with the flow rate lowering portion 11 through the opening 13 to decrease the flow rate. Water introduced from the unit 11 is fresh water, and the fresh water reservoir 12 sucks the chamber unit 130 to store the fresh water in the fresh water reservoir 12 and the water stored in the chamber unit 130. The pump 140 is injected to the injection hole 15 is further installed.
The chamber 130 is a human by the strong suction force of the second suction pipe 122 when recovering the water flowing in the flow rate lowering portion 11 directly through the second suction pipe 122 of the circulation means 120 The sucked in to prevent the occurrence of a safety accident is provided, the water flows into the fresh water reservoir 12 through the opening portion 13 is located spaced apart from the opening portion 13 is stored and , Is connected to the second suction pipe 122 of the circulation means (120).
In addition, the pump 140 is described in more detail in the stagnation section of the waterway 10 in which the flow rate is lowered by the flow rate lowering portion 11, the waterway 10 and the freshwater reservoir 12 of the entire section of the waterway 10. In order to solve the problem that people are not naturally circulated in the section in which the injection hole 15 is formed on the side wall of the channel 10 partitioning the suction nozzle, one side of the pump 140 is installed in the chamber unit 130 141 is provided, and the other side is provided with a spray nozzle 142 installed in the injection hole 15 to suck the water stored in the chamber 130 from the suction nozzle 141 through a pumping action, the suction As the water is injected through the injection nozzle 142 coupled to the injection hole 15, it pushes and circulates the stagnant people in the stagnant section, and forms a wave while maintaining a constant flow rate in the stagnant section, Rapid to the part where 10 and the discharge channel 20 are in contact It is possible to form the flow and wave.
The water storage unit 40 is formed on one side of the waterway 10, the water flowing along the waterway 10 is stored in the internal space through the circulation means 120, the position higher than the height of the discharge waterway 20 Is formed.
In addition, a plurality of discharge ports 41 are formed at the lower portion of the water storage unit 40 toward the discharge channel 20 and the water channel 10, and the water stored in the internal space is discharged through the discharge port 41 to discharge the discharge water. Through the furnace 20 is quickly flowed to the waterway (10) side.
In addition, each of the discharge port 41 of the water storage unit 40, the water gate 50 having a larger area than the discharge port 41 is hinged rotatably up and down.
In addition, opening and closing means for opening and closing the outlet 41 are independently installed in each of the water gates 50, and the opening and closing means includes a driving cylinder 70 and a controller 80. .
The driving cylinder 70 may be installed on the bottom or both side walls of the discharge passage 20 formed in the position close to the water gate 50, the piston provided in the cylinder is installed in the water gate (50). In addition, a frame (not shown) for installing the drive cylinder 70 may be further installed in the discharge channel 20 in which the drive cylinder 70 is installed.
In addition, the drive cylinder 70 is connected to the hydraulic pump 60, the hydraulic pump 60 by injecting the hydraulic pressure to each drive cylinder 70 alternately at a predetermined time interval in the controller unit 80 The piston provided in the driving cylinder 70 raises and lowers, and the water gate 50 rotates in the up and down direction in conjunction with the upward / lowering movement of the piston so that the outlet 41 of the water storage unit 40 has a predetermined interval. As it is opened and closed, the amount of water discharged from the discharge port 41 of the water storage unit 40 is continuously changed so that the water can be circulated smoothly through the entire channel 10.
The controller 80 is electrically connected to the hydraulic pump 60, and controls the hydraulic pump 60 to inject or discharge hydraulic pressure into the driving cylinder 70 to drive the driving cylinder 70. A program for injecting or discharging hydraulic pressure is input at a predetermined interval so that the plurality of drive cylinders 70 are alternately operated to sequentially drive the plurality of drive cylinders 70 alternately.
The sluice gate 50 can be opened and closed in a rotational manner by the driving cylinder 70, not the sliding method, and can open and close the sluice gate 50 with minimal energy without additional power means. The water stored in the water storage unit 40 is discharged to the discharge channel 20 at a high speed by the water pressure of the water gate 50 is rotated to the lower side, the water flows with a stronger force and the discharge channel ( As it passes through the free fall portion 30 formed at one end of the 20), the flow rate is further increased to be smoothly circulated along the waterway (10).
The flow path part 100 prevents the water stagnant in the flow rate lowering part 11 from overflowing from the artificial beach part 90 connected to the flow rate lowering part 11, and circulates the water located in this section. The inlet 110 for transferring water back to the water storage unit 40 and formed at the bottom where the artificial beach unit 90 is started and overflowing into the artificial beach unit 90 is formed. The flow path tube 112 is connected to the inlet 110 and accumulates water introduced through the inlet 110.
In addition, the inlet 110 has a dense hole formed in the body to prevent unnecessary foreign matters from being recovered together in the process of the water flowing in the artificial beach portion 90 is recovered to the flow path 112 through the inlet 110 Purification network 111 is further installed.
In addition, a storage unit 113 in which water accumulated in the flow path tube 112 is stored is further formed in the inner space of the flow path tube 112.
The circulation means 120 is formed on the outside of the fresh water reservoir 12 and pumps the water stored in the storage 113 and the chamber 130 to fill the water storage 40, and the first suction pipe And a second suction pipe 122 and a supply pipe 123.
The first suction pipe 121 is installed to communicate with the storage 113 formed in the inner space of the flow path pipe 112 to suck water from the storage 113, the second suction pipe 122 is a fresh water reservoir It is installed to communicate with the chamber portion 130 through the wall surface of the (12) to suck the water of the chamber portion 130, the supply pipe 123 is installed to communicate with the water storage portion 40 is the first, second The water sucked through the suction pipe is filled in the water storage unit 40.

 As such, the circulation means 120 installed at a position where the people do not interfere with the circulating channel 10 efficiently fills the water in the water storage unit 40, and the people are constantly stagnant along the channel 10. To be circulated.

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1 is an overall perspective view of a wave river according to the present invention.

2 is a plan view of a wave river according to the present invention.

** SIGNS FOR MAIN PARTS OF THE DRAWINGS **

10: channel 11: flow rate lowering

12: number of spaces 13: open portion

14 grill part 15 injection hole

20: discharge water path 30: free fall part

40: water reservoir 41: outlet

50: sluice 60: hydraulic pump

70: driving cylinder 80: controller

90: artificial beach part 100: euro part

110: inlet 111: purification network

112: euro tube 113: storage unit

120: suction unit 121: first suction nozzle

122: second suction nozzle 123: supply nozzle

130: chamber 140: pump

141: suction nozzle 142: injection nozzle

Claims (9)

A water channel 10 having a flow rate lowering portion 11 formed to be inclined toward one side while the water is circulated and the width of a predetermined portion is widened is formed on one side of the water channel 10, and the water channel 10 is disposed at a lower portion thereof. A plurality of outlets 41 are formed toward the side to discharge the water stored in the internal space through the outlet 41, the water storage unit 40 is provided with a water gate 50 for opening and closing the outlet 41 And the water discharged from the discharge port 41 of the water storage unit 40 is formed between the water channel 10 and the water storage unit 40 and is inclined toward the water channel 10. Opening and closing means for supplying to the discharge passage 20 and the water gate 50 of the water storage unit 40, the opening and closing means for opening and closing the discharge port 41 by rotating the water gate 50 up and down, and the water channel ( In the wave river comprising an artificial beach portion 90 connected to the flow rate lowering portion 11 of 10), An opening portion 13 formed on a wall surface of the water channel 10 formed at a position close to the flow rate lowering portion 11, and having a grill portion 14 installed therein; It is formed on one side of the wall surface of the water channel 10 formed in the position close to the flow rate lowering portion 11, and communicates with the flow rate lowering portion 11 through the opening portion 13 to flow from the flow rate lowering portion 11 Fresh water reservoir 12 is fresh water; An inlet 110 formed at the artificial beach and inflowing water of the flow rate lowering part 11, and a flow path tube 112 connected to the inlet 110 to accumulate water introduced through the inlet 110; A flow path part 100 formed of the same; A storage unit 113 formed in an inner space of the flow path tube 112 and storing water accumulated in the flow path tube 112; A chamber unit 130 installed in the fresh water reservoir 12 to store fresh water in the fresh water reservoir 12; A first suction pipe 121 installed in the storage unit 113 to suck water from the storage unit 113 and a second suction tube installed in the chamber unit 130 to suck water from the chamber unit 130. It consists of a suction pipe 122 and the supply pipe 123 installed in the water storage unit 40, the water sucked through the first and second suction pipes 121 and 122 to the water storage unit 40, the fresh water reservoir And a circulation means (120) formed at a position adjacent to (12), On the bottom surface of one end of the discharge passage 20, a dropping portion 30 for providing kinetic energy to the water discharged from the discharge port 41 of the water storage unit 40 is further installed, The opening and closing means are formed in the discharge passage 20 formed at a position close to the sluice 50 and are coupled to the sluice 50, and are connected to the hydraulic pump 60 so that the hydraulic pressure is injected or discharged. The driving cylinder 70 which opens and closes the discharge port 41 by rotating 50) up and down, and is electrically connected to the hydraulic pump 60 so that the hydraulic pump 60 injects hydraulic pressure into the driving cylinder 70 or By controlling to discharge to drive the drive cylinder 70, characterized in that consisting of a controller unit 80 for controlling the hydraulic pressure to be sequentially injected so that the amount of water discharged from the water storage unit 40 is continuously changed. Wave river. delete The method of claim 1, Wave inlet, characterized in that the inlet 110 is further provided with a purifying net 111 for trapping foreign matter. delete delete delete delete The method of claim 1, Wave side, characterized in that the injection port 15 is further formed in the side wall partitioning the waterway 10 and the fresh water reservoir 12 is coupled to the injection nozzle 142 of the pump 140. The method of claim 8, The fresh water reservoir 12 is installed in the chamber 130 and a suction nozzle 141 for sucking the water in the chamber 130, and a suction nozzle 141 is installed in the injection port 15 of the water channel 10 Wave river, characterized in that the pump 140 further comprises a spray nozzle 142 for spraying the water sucked through the injection port 15.

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