KR102260285B1 - Small hydro power generator for efficient use of influent and discharged water - Google Patents

Abstract

The present invention relates to a small hydro power generation apparatus for a farm, capable of acquiring electric energy through hydro energy generated through effluent from a farm. The small hydro power generation apparatus includes: a storage part having an effluence pipe and a discharge pipe connected with each other to discharge effluent from a farm while enabling the discharge thereof; a generation part connected to one side of the storage part to enable power generation from a generator through the effluent discharged to a generation pipe; a control means having a cutoff plate formed near the discharge pipe of the storage part be openable for the outward effluence and cutoff of the effluent while regularly controlling the backflow prevention of the effluent; and an opening/closing means having an opening plate formed near the generation pipe to control the effluence and cutoff of the effluent for power generation, and formed to facilitate the opening of the opening plate from strong water pressure produced during effluence. According to the present invention, the small hydro power generation apparatus can enable small hydro power generation using seawater or the like introduced into and discharged from the farm around the clock, while enabling installation without causing a large replacement on an existing effluent facility at the farm, and can enable the opening plate cutting off the effluent to be easily opened in case of strong water pressure arising to the opening plate when power generation using the discharge of effluent is required, while efficiently preventing a backflow arising when the amount of the effluent introduced into the farm and the amount of the effluent discharged therefrom are different.

Description

Small hydro power generator for efficient use of influent and discharged water

The present invention relates to a small-scale hydroelectric power generation device for aquaculture that enables efficient utilization of discharged discharged water that is continuously generated through the inflow and discharge of river water or seawater, and more specifically, it is good for general aquaculture farms raising fish. In order to maintain water quality, small-scale hydroelectric power generation is possible using river or seawater flowing in and discharged 24 hours a day, and installation is possible without major replacement of the discharge water facility of the existing farm, while discharging the discharged water. In the case of generating power through this system, it is easy to open when strong water pressure occurs on the open plate that blocked the discharge water, and the amount of discharged water flowing into the farm and the amount of discharged water in the process of promoting power generation through the discharge of discharged water It relates to a small hydroelectric power plant for aquaculture that can effectively prevent backflow that occurs when the amount of discharged water is different.

In general, small-scale hydroelectric power generation (small water power generation) refers to a small-scale hydroelectric power generation with an installed capacity of less than 15,000 kw, but in Korea, the small-scale hydro power generation is usually made of less than 3,000 kw. Such small hydro power generation uses falling water to produce electricity. Instead of building a large-scale dam in one part of a large river like hydroelectric power generation, it is small compared to large-scale hydroelectric power generation, but it is a place where constant water flows 24 hours a day. It can be installed anywhere, so it is possible to obtain electric energy in an environmentally friendly manner with little adverse effect on the surrounding ecosystem. In particular, in the case of aquaculture farms, it is necessary to change the circulation of water that flows in and out for 24 hours in order to maintain good water quality. Small electrical energy is obtained by using the discharge power of the discharged water generated in this replacement process, but better electrical energy We are still working tirelessly to obtain it.

For example, according to Korea Registered Utility Model No. 0480800, 'It relates to a waterway type small hydro power generation device using discharge water from an onshore farm, which serves as a passage for discharging the discharge water from an onshore farm, and an upper waterway ( 110), the lower waterway 120 located at a lower place than the upper waterway 110 and connected to the common water surface, the slope connecting the upper waterway 110 and the lower waterway 120 while forming a downward slope a discharge water conduit 100 consisting of a conduit 130; It is coupled to each of the two aberration shafts 210 vertically installed in the discharge water channel 100 and rotates together with the aberration shaft 210 by the discharge water discharged along the discharge water channel 100 ( 220) consisting of a water wheel wing unit 200; a generator 300 for generating electric power while rotating in conjunction with the aberration shaft 210 of the water turbine wing unit 200; And, at the inlet side of the water wheel part 200, it is installed so as to protrude on each of the left and right sides of the inner side of the discharge water channel 100 to gradually reduce the cross-sectional area of the water discharge water channel 100 while reducing the discharge water to the discharge water channel A discharge collector 400 for guiding to the central part of 100 and increasing the flow rate of the discharged water flowing into the aberration wing 200; and configured to include, the aberration shaft ( 210) are spaced apart from the center of the discharge water channel 100 by the same distance on both left and right sides and installed side by side so that the water wheel part 200 is disposed in a symmetrical structure with respect to the center of the discharge water channel 100, , The water wheel 220 of the water wheel part 200 is a water channel type using discharge water from a land farm, characterized in that the surface that collides with the discharge water flowing through the central part of the discharge water channel 100 is in a concave shape. Small hydro power generation device.' is presented.

However, since this waterway type small hydro power generation device has to be manufactured and manufactured separately for each water channel such as the upper water channel and the lower water channel, it cannot be used in the existing aquaculture farm. Problems that may arise follow.

As another example, according to Korean Patent Application Laid-Open No. 2020-0028795, 'an inlet line forming an inlet pipe for introducing water from the sea to an onshore tank farm and a discharge line forming a discharge pipe for discharging the discharge water from the aquaculture farm and; an inlet pump installed in an upstream direction from the inlet line and a discharge pump installed in an upstream direction in the discharge line; In the inlet line, along the longitudinal direction of the installation section on at least one installation section selected from the first section between the inlet pump and the farm and the second section between the discharge pump and the discharge pipe end in the outlet line Power generation devices (5) installed at intervals and configured to generate electric power using hydraulic power within the installation section; A small hydro power generation system including an energy storage device for storing power generated by the power generation devices 5 is presented.

However, the small hydro power generation system of Korea Patent Publication No. 2020-0028795 described above cannot be used in existing aquaculture farms because it has to be manufactured through a wide range of piping connections, and can be used only after extensive equipment replacement. There are possible downsides.

Korea Registered Utility Model No. 0480800 "A small hydroelectric power generation device using water discharged from an onshore farm" Korean Patent Publication No. 2020-0028795 "Small hydroelectric power generation system using aquaculture"

It is an object of the present invention to fundamentally improve the problems of the prior art as described above, in order to maintain good water quality in general fish farms raising fish, small-scale hydroelectric power generation is possible using river water or seawater that is introduced and discharged 24 hours a day. In the event of strong water pressure in the open plate that blocks the discharged water, it is possible to install it without significantly replacing the discharged water facilities of the existing farms while promoting power generation by discharging the discharged water. Small hydropower for aquaculture farms is designed to be easily opened and to effectively prevent backflow that occurs when the amount of discharged water flowing into the farm is different from the amount of discharged water in the process of promoting power generation through the discharge of discharged water. It is intended to provide a generator.

In the present invention for achieving the above object, in configuring a small hydroelectric power generation device for aquaculture for obtaining hydraulic energy expressed through discharge water discharged to the outside from the farm as electrical energy: a receiving part in which the discharge pipe and the discharge pipe are interconnected to enable the discharge; a power generation unit communicating with one side of the accommodating part to enable power generation from the generator through the discharged water discharged to the power generation pipe, and having a mesh network to remove foreign substances contained in the discharged water flowing in from the receiving unit; a control means having a blocking plate formed close to the discharge pipe of the receiving part so as to be able to open and close to externally discharge and block the discharged water, and to constantly control the backflow prevention of the discharged water; And it is formed close to the power generation pipe of the power generation unit is provided with an open plate for controlling the discharge and blocking for the power generation of the discharged water, and an opening means configured to facilitate the opening of the open plate from the strong water pressure generated at the time of discharge. However, the blocking plate of the control means is inserted into the first vertical groove of the first guide so as to be able to open and close while blocking the external discharge of the discharged water. It is configured not to block the entire discharge pipe in order to enable prevention control, and the opening means is a rotating table formed to enable the rotation of the open plate by a hinge, and one side of the rotating table is guided through rotation to the left and right A handle for adjusting rotation is provided on the rotating table connected to the pressing unit and the other side to generate a small gap by pressing the groove to incline the opening plate, and the operator holds it from the strong water pressure generated when the discharged water is discharged. It is characterized in that the opening plate is configured to be easily opened.
In addition, the opening plate of the opening means according to the present invention is inserted into the second vertical groove of the second guide to allow for frequent opening and closing of the external discharge and blocking of the discharged water, and the lower part has wheels to enable smooth movement. It is characterized by being more equipped.

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On the other hand, prior to this, the terms or words used in the present specification and claims should not be construed as being limited to conventional or dictionary meanings, and the inventors have to understand the concept of terms in order to explain their invention in the best way. Based on the principle that it can be appropriately defined, it should be interpreted as meaning and concept consistent with the technical idea of the present invention. Therefore, the embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiment of the present invention, and do not represent all of the technical spirit of the present invention. It should be understood that there may be equivalents and variations.

According to the present invention, in order to maintain good water quality in general fish farms raising fish, small-scale hydroelectric power generation is possible using river water or sea water flowing in and discharged 24 hours a day, and the discharge water facility of the existing aquaculture farm is improved. It enables installation without major replacement, while also making it easy to open in case of strong water pressure on the open plate blocking the discharged water when generating power by discharging the discharged water. In the process of promoting power generation, it provides the effect of effectively preventing the backflow that occurs when the amount of discharged water flowing into the farm is different from the amount of discharged water.

1a is a perspective view showing a non-generation state of a small hydro power generation device for aquaculture according to the present invention;
Figure 1b is a perspective view of another view showing the non-generation state of the small hydroelectric power generation device for aquaculture according to the present invention
Figure 1c is a side cross-sectional view showing a non-generation state of a small hydroelectric power generation device for a farm according to the present invention
Figure 2a is a side view showing a small hydro power generation device for aquaculture according to the present invention
Figure 2b is a side view of another view showing a small hydro power generation device for aquaculture according to the present invention
Figure 3a is a perspective view showing the power generation state of the small hydroelectric power generation device for aquaculture according to the present invention;
Figure 3b is a perspective view of another view showing the power generation state of the small hydroelectric power generation device for aquaculture according to the present invention
4a to 4f are a perspective view and a perspective cross-sectional view sequentially showing the opening means of the small hydroelectric power generation device for aquaculture according to the present invention;
5a to 5e are a perspective view and a cross-sectional view of another view sequentially showing the opening means of the small hydroelectric power generation device for aquaculture according to the present invention;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a small hydroelectric power generation device for aquaculture for obtaining electric energy through hydraulic energy generated through discharge water (1) that is always discharged to the outside from a farm, and includes a receiving unit (10) · a power generation unit (20) · control The means 30 and the opening means 40 are the main components.

The accommodating part 10 according to the present invention is connected to the discharge pipe 11 and the discharge pipe 12 so that discharge is possible while accommodating the discharge water 1 that is always generated from the aquaculture farm. The receiving part 10 is formed in a state in which the discharge pipe 11 of one side and the discharge pipe 12 of the other side are connected, respectively, and the water of the farm can be accommodated through the discharge pipe 11, while the received It is configured so that water can be discharged through the discharge pipe 12 through the receiving portion (10). In the case of the accommodating part 10, it is configured to accommodate the discharged water as a way to replace the water while maintaining good water quality in the farm.

In addition, the power generation unit 20 of the present invention communicates with one side of the receiving unit 10 so that the power generation of the generator 22 is possible through the discharge water 1 discharged to the power generation pipe 21 . do. The power generation unit 20 discharges the discharge water 1 introduced into the discharge pipe 11 when small hydro power generation is not required to the discharge pipe 12 on the other side, but discharges when small hydro power generation is required. It is configured to produce electricity through a separate generator 22 connected to the power generation pipe 21 by allowing the number 1 to flow into the power generation pipe 21 of the power generation unit 20 . That is, it is to obtain electric energy through hydraulic energy expressed by the discharged water 1, and depending on the situation, whether to discharge the discharged water 1 to the discharge pipe 12 through a worker, or power generation It is determined whether or not to flow through the pipe 21 so that it can be used.

At this time, the power generation unit 20 is characterized in that it is further provided with a mesh network 23 to remove foreign substances that are intermittently included in the discharge water (1) flowing from the receiving unit (10). In the power generation unit 20, the discharged water 1 flows to the power generation pipe 21 of the power generation unit 20 in order to generate electrical energy and passes through the generator 22, but there is a separate foreign material in the discharged water 1 Also, the generator 22 itself may fail due to foreign substances in the flow, so that the mesh network 23 is further provided in order to prevent this. The mesh network 23 is vertically slid to be fixed, and is formed to be easily replaced. Accordingly, the operator can more easily remove the foreign substances collected in the receiving unit 10 through the mesh network 23 .

In addition, the control means 30 according to the present invention is formed close to the discharge pipe 12 of the receiving part 10 to block the external discharge of the discharged water 1 while enabling opening and closing, while the discharged water 1 ) is provided with a blocking plate 31 to enable backflow prevention control. The control means 30 discharges the discharge water 1 generated from the farm when the operation of the power generation unit 20 is not performed or the operation is stopped for various reasons such as repair of the power generation unit 20 to the discharge pipe 12 . The discharge water (1) flowing into the receiving part (10) is discharged more smoothly so that the amount of the discharge water (1) discharged to the discharge pipe (12) can be reduced to be opened, and to obtain electrical energy. A blocking plate 31 capable of blocking is formed.

At this time, the blocking plate 31 of the control means 30 is inserted into the first vertical groove 33 of the first guide 32 to open and close while blocking the external discharge of the discharged water 1, , It is characterized in that when the discharge water (1) is discharged to the power generation pipe (21), the discharge pipe (12) is formed so as not to block the entirety of the discharge pipe (12) so as to be able to control the backflow prevention of the discharge water (1). This control means 30 is configured to be able to open and close the blocking plate 31 so as to discharge and block the discharge water 1 through the discharge pipe 12 . In this case, a pair of first guides 32 are formed on both sides at a position close to the discharge pipe 12 , and a blocking plate 31 is inserted into the first vertical groove 33 formed in the first guide 32 . · It can be opened and closed by making it possible to move downwards.

The control means 30 is discharged by opening the blocking plate 31 so that the discharge water 1 flowing in from the discharge pipe 11 is smoothly discharged through the discharge pipe 12 when power is not generated. When the discharge water 1 flows into the power generation pipe 21 of the power generation unit 20 for power generation, the blocking plate 31 is formed in the first vertical groove 33 formed in the first guide 32 . ) by inserting the discharge water (1) flows to the power generation pipe (21). At this time, if a large amount of discharged water 1 flows in from the discharge pipe 11, since it may be impossible to discharge a large amount of discharged water 1 to the power generation pipe 21, when a reverse flow of the discharged water 1 occurs As the blocking plate 31 is formed so as not to block the entire discharge pipe 12 in preparation for this, a certain amount of discharged water 1 is always discharged through the discharge pipe 12, thereby preventing backflow.

In addition, the opening means 40 according to the present invention is provided with an opening plate 41 that is formed close to the power generation pipe 21 of the power generation unit 20 to control the discharge and blocking of the discharge water 1 for power generation. And, the opening plate 41 is configured to be easily opened from the strong water pressure generated at the time of discharge. That is, if the above-described control means 30 is configured to control the discharge of the discharge water 1 to the discharge pipe 12 when the power generation is not generated, the opening means 40 generates power generation. As one of the expedients for this, it can be said to be a configuration for controlling the discharge of the discharged water (1) to the power generation pipe (21).

This opening means 40 is provided with an opening plate 41 for controlling the discharge and blocking of the discharge water 1 for power generation, and when not generating power, the receiving part 10 In a state in which a large amount of discharged water 1 is accommodated, it is in the form of pressing the opening plate 41, whereas this causes a problem in that it is difficult for the operator to open and close the opening plate 41. It is configured so that the opening plate 41 can be easily opened from such water pressure.

At this time, the opening plate 41 of the opening means 40 is inserted into the second vertical groove 43 of the second guide 42 to open and close the discharge water 1 to the outside so that it can be opened and closed at any time. And, the lower portion is characterized in that it further comprises a wheel 44 to enable smooth movement. And the open plate 41 is provided with a second vertical groove 43 of the second guide 42 formed close to the power generation pipe 21 of the power generation unit 20, the open plate in the second vertical groove (43) (41) is a configuration that is inserted. Accordingly, since the opening plate 41 can move upward or downward in the second vertical groove 43 , opening and closing can be well controlled. In addition, one or more wheels 44 are further formed under the open plate 41 to enable smoother movement when the operator opens and closes the open plate 41 .

In addition, the opening means 40 includes a rotation table 46 formed to enable rotation of the opening plate 41 by a hinge 45 and a guide groove ( 47) by pressing the opening plate 41 so that a small gap (C) is generated, and a rotation control handle 49 is provided on the rotating table 46 connected to the pressing part 48 and the other side. It is characterized in that the opening plate 41 is easily opened from the strong water pressure generated when the discharge water 1 is discharged in a state held by the operator.

That is, the opening means 40 is a state in which a large amount of discharged water 1 is accommodated in the accommodating part 10 when not generating electricity as described above to press the opening plate 41 . As a result, it is difficult to open. Therefore, rotation of the rotary table 46 is possible about the hinge 45 on the open plate 41, the pressing part 48 is formed on one side of the rotary table 46, and the handle 49 on the other side. It is formed in an indivisible connection state. Therefore, when the operator pulls the handle 49, the pressing portion 48 of the rotary table 46 around the hinge 45 comes into contact with the guide groove 47 formed in the lower portion of the second guide 42, and the guide groove When rotating under pressure along (47), the opening plate 1 is inclined to one side, and as a small gap C is generated by the inclination, strong water pressure is weakened, and the operator can use the opening plate 41 ) can be lifted sufficiently, so that it can be gently opened.

According to the present invention, in order to maintain good water quality in general fish farms raising fish, small-scale hydroelectric power generation is possible using river water or sea water flowing in and discharged 24 hours a day, and the discharge water facility of the existing aquaculture farm is improved. It enables installation without major replacement, while also making it easy to open in case of strong water pressure on the open plate blocking the discharged water when generating power by discharging the discharged water. In the process of promoting power generation, it provides the effect of effectively preventing the backflow that occurs when the amount of discharged water flowing into the farm is different from the amount of discharged water.

The present invention is not limited to the described embodiments, and it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Accordingly, it should be said that such variations or modifications fall within the scope of the claims of the present invention.

1: discharge water 10: receiving part
11: discharge pipe 12: discharge pipe
20: power generation unit 21: power generation pipe
22: generator 23: mesh network
30: control means 31: blocking plate
32: first guide 33: first vertical groove
40: opening means 41: opening plate
42: second guide 43: second vertical groove
44: wheel 45: hinge
46: swivel 47: guide groove
48: pressing part 49: handle
C: break

Claims (5)

In constructing a small hydro power generation device for aquaculture to obtain electric energy from hydraulic energy expressed through discharge water (1) discharged from the farm to the outside:
a receiving part 10 in which the discharge pipe 11 and the discharge pipe 12 are interconnected to enable discharge while receiving the discharge water (1) from the farm;
It communicates with one side of the accommodating part 10 and implements so as to enable power generation from the generator 22 through the discharge water 1 discharged to the power generation pipe 21, and the discharge water 1 flowing in from the receiving unit 10 ) power generation unit 20 having a mesh network 23 to remove foreign substances contained in;
The blocking plate is formed close to the discharge pipe 12 of the receiving part 10 so that it can be opened and closed to block the external discharge of the discharged water 1 while constantly controlling the backflow prevention of the discharged water 1 adjusting means (30) having (31); and
It is formed close to the power generation pipe 21 of the power generation unit 20 and has an open plate 41 for controlling the discharge and blocking for the generation of the discharged water 1, and from the water pressure generated during discharge ( 41) opening means 40 configured to facilitate the opening;
The blocking plate 31 of the adjusting means 30 is inserted into the first vertical groove 33 of the first guide 32 to open and close while blocking the external discharge of the discharged water 1 to open and close, When the discharge water (1) is discharged through the pipe (21), it is configured not to block the entire discharge pipe (12) in order to control the backflow prevention of the discharged water (1),
The opening means 40 includes a rotating table 46 formed so that the opening plate 41 can be rotated by a hinge 45, and a guide groove 47 by rotating left and right on one side of the rotating table 46. A pressurizing part 48 for generating a small gap C by pressing to incline the opening plate 41, and a rotation control handle 49 on the rotary table 46 connected to the other side. A small hydro power generation device for aquaculture that can efficiently utilize inflow and discharge water, characterized in that it is configured to facilitate the opening of the opening plate 41 from the strong water pressure generated when the discharge water 1 is discharged in a holding state. . delete delete The method of claim 1,
The opening plate 41 of the opening means 40 is inserted into the second vertical groove 43 of the second guide 42 to open and close the discharge water 1 to the outside so that it can be opened and closed at any time, A small hydroelectric power generation device for aquaculture that can efficiently utilize inflow and outflow water, characterized in that it further includes wheels 44 to enable smooth movement in the lower part. delete

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